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THE
NAUTICAL ALMANAC
ASTRONOMICAL EPHEMERIS
FOB THE YEAE
1882,
FOB THE MERIDIAN
or THE
ROYAL OBSERVATORY AT GREENWICH.
PUBLISHED BY ORDER OF
THE LORDS COMMISSIONERS OE THE ADMIRALTY.
£011*1011 l
PRIXTED BY 0. «. ITRJ A2TO W. 8POTTI8W00DB, HBR ILUBSTrs PRIKTBRS |
AMD M>M> BT
JOHN MURRAY, ALBEMARLE STREET.
1878.
PRICE TWO SHILLINGS AOT SIXPENCE,
O609.
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CONTENTS,
ALPHABETICALLY ARRANGED.
* # * The large Roman Numerals indicate the Page />f each Month ;
the email, the Page of the Preface; and the Arabic, the Page of the Booh,
rages.
Airy's Day Numbers --- - 2 95 to 302
Abbreviations and Symbols ..--------...- ix
BetaeTft Day Numbers --------------- 295 to 302
Ch/endar, Principal Articles of the ----------- viii
Day of the Year 484 and 485
Eclipses of the Sun and Moon ---•-•-•..-- .39710401
Equation of Time - ---------------- I and II
Errata- -..----------------- x
Explanation of the Articles, Ac. ----------- -48910511
Festivals, Anniversaries, &c. -----.-.----- viii
Fraction of the Year --- 484 and 485
Julian Period, Days elapsed of the ------.---- 483
Jupiter, Kphcmeris of, at Mean Noon - • - - - - - - - - -25010257
■ at Transit - 280 to 282
Jupiter's Satellites, Eclipses, Occultations, Phases of Eclipses, &c. - • 442 to 461
Lunar Distances XIII to XVI11
Correction for Second Differences of 482
Mars, Ephemeris of, at Mean Noon ----------- 242 to 249
at Transit --.-..- 278 and 279
Illuminated portion of the Disc of -.--...... 467
Opposition, Ephemeris of -.----.-.--- 464 to 466
Mean Time of Transit of the first point of Aries Ill
Mercury, Ephemeris of, at Mean Noon ---- 226 to 233
— — — — — — at Transit ----------- 270 to 273
Moon, Apogee and Perigee of the ------------ XII
Ephemeris of the Ill to XII
— — - — — - — — at Transit --- 367 to 396
Libration of the ------------ 472, 476, and 477
Mean Longitude of the Node of the Orbit of the ----- 1
Phases of the XII
Neptune, Ephemeris of, at Mean Noon --------- 268 and 269
at Transit '- 288 and 289
Nutation ----•----------...- x
Obliquity of the Ecliptic ----.--.1 and 218 to 225
Observatories, Latitudes and Longitudes ----------4 86 to 488
Occultations of Stars by the Moon, Elements of -----.. 403 to 438
visible at Greenwich - - - - - 439 to 441
Phenomena ----.-.----------- 462 and 463
C 609. a 2
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iv CONTENTS.
Paget.
Pole Star, Tables to find the Latitude by the - - - - - - - -473 to 475
Precession in Longitude -..---.... 1
Saturn, Ephemeris of, at Mean Noon ------ 2 58 to 265
at Transit ------------ 283 to 285
Ring of 467
Sidereal Time at Mean Noon ------------- II
Stars, Airy's Day Numbers for Reduction of-------- 295 to 302
Apparent Places of - - - ------3iito 366
Bessel's Day Numbers for Reduction of- - - - - • - - 295 to 302
Quantities, for Reduction of -------,-- -30310310
Formulae, for Reduction of------------ 294
Mean Places of ---------•----. 290 to 293
Moon-Culminating ------.----- -- 367 to 396
Sun, Aberration of the --------------- 1
Co-ordinates of the - ---•- -218 to 225
Ephemeris of the---- ---I to III
Parallax of the ------------.--- 1
Tides - - - 468 to 471
Time Equivalents, Tables of 47810481
Uranus, Ephemeris of, at Mean Noon ----•-.-- 266 and 267
at Transit 286 and 287
Venus, Ephemeris of, at Mean Noon - - - - - - - - - - -2 34 to 241
at Transit 27410277
■ Illuminated portion of the Disc of -.-----•- 467
•■ Transit of, across the Sun's Disc ---------- 402
Appendix,
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PREFACE.
Tjh* contents and arrangement of the Nautical Almanac and Astronomical
Ephbkkris for the year 1882 are the same generally as those of the preceding
jear.
The mean obliquity of the Ecliptic =23° 27' i6"*6o on January 1, 1882, and
the mean annual diminution = o"'476 (Le Verrier's Solar Tables, page 203).
The Constant of Aberration = 20" -4451. (Struve, Sur le Coefficient Constant de
? Aberration, p. 47.)
The Nutations of the Obliquity of the Ecliptic (A ») and of Longitude (A L^
hare been computed by the formulae :
A » = 9"-2237cos8 — o"'o895 cos 28 + 0" -5507 cos 2 ©
AL= — i7"-25268in8 + o""2073 sin28 — i"*2693 sin2 ©
where Q is the mean Longitude of the Moon's ascending Node, and © the true
Longitude of the Sun. The coefficients are those determined by Peters.
The places of the Sun are from Leverrier's Tables in "Annates de VObser*
vatoire Imperial de Paris," Vol. IV.
The Semidiameter of the Sun at the Earth's mean Distances 16' i"'S2, the
result of the 12 years' Observations, 1836 to 1847, at tne Royal Observatory,
Greenwich.
The Equatorial Horizontal Parallax of the Sun, at the Earth's mean Distance
= 8" '848. (Newcomb, Washington Observations, 1865, Appendix II., p. 29.)
The Moon's Longitude, Latitude, Horizontal Parallax, and Semidiameter are
from Hansen's Tables de la Lune. London, 1857.
The Heliocentric places of Mercury, Venus, Mars, Jupiter, Saturn, Uranus, and
Neptune, are from Leverrier'b Tables in "Annates de f Observatoire Imperial
de Paris," Vols. V., VI., XII., and XIV.
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vi PREFACE.
The adopted Equatorial Semidiameters of the Planets, at the mean distance of
±e Earth from the Sun, are :
Mercury, 3*34 (Leverrier's Tab les of Mercury, page 182).
Venus, 8*305 (Leverrier's Tables of Venus, page 168).
Mars, 5 * 55 (Leverrier's Tables of Mars, page 412).
Jupiter, 98*19* Polar Sem. = Eq. Sem. X'939*
Saturn, 83 '31 -------- Polar Sem. = Eq. Sem. x ' 895.
Uranus, 34*28
The Eclipses of Jupiter's Satellites have been derived from " Tables EclipHques
>s Satellites de Jupiter. Par le Baron De Damoiseau. Paris, 1836,^ excepting
Tables I. and III. of each Satellite, which hare been computed by Adams' Tables
in the Appendix to the Nautical Almanac for 1881. The Occupations Sec. by
Woolhouse's Tables in the Appendix to the Nautical Almanac for 1835,
excepting Table II. of each Satellite, which has been adapted to Damoiseau's
Tables.
The mean places of 184 of the Standard Stars have been derived from the
Greenwich Catalogues for i860 and 1864, and for the Stars not therein contained,
from the Cape Catalogue of 11 59 Stars, the First Melbourne General Catalogue,
and the Cape separate Catalogues, 1871-3.
The Logarithms of A, B, C, D, and the Quantities for the Reduction of Stars
generally, have been computed by Bessel's formulae with the co-efficients of
Peters, omitting in C and D the terms — 0*00405 sin 2 <[ and — 0*0885
cos 2 <[ : the Logarithms of E, F, G, H, and the value of L, by the formula
in the introduction to the Greenwich Twelve-year Catalogue ( Volume of Green-
wich Observations for the year 1847).
The Moon-Culminating Stars and Stars occulted by the Moon have been
selected from the British Association Catalogue, and the mean places taken from
a manuscript Catalogue to the 6$ magnitude inclusive, adapted to the year 1880,
in the construction of which, the following order of preference was observed, viz.
Art's Seven- Year, Six-Year, and Twelve- Year Catalogues.
The mean of Madler's Bradley, Armagh, and British Association
Catalogues, or either of them when the others were not available.
The proper motions adopted are those determined by Main and Stone
{Memoirs of the Roy. Astron. Soc, Vols, xix, xxvm, and xxxni), excepting
that for q' Draconis the proper motion in Madler's Bradley has been used.
The magnitudes were chiefly taken from Argelandkr's Uranometria Nova.
The calculations of the Eclipses and Occupations have been made according
to the methods and formulae given by Woolhouse in the Appendix to the
Nautical Almanac for 1836.
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PREFACE, vii
The times of High Water at London Bridge have heen computed from tables
in " An Elementary Treatise on the Tides. By J. W. Lubbock, Esq." London,
1839, with corrections of the semimonthly inequality by the Hydrographic
Office.
The Tables for finding the Latitude of a place by Observations of the Pole Star
(a Ursa Minokis) are founded on the following formula:
/ = a — p cos A + £ sin 1" (p sin A) 1 tan a
where / denotes the latitude, a the true altitude of the Star, p the apparent polar
distance, and A=S-a the hour angle of the Star ; S being the sidereal time of
observation, and a the right ascension of the Star. Table I. contains p cos A
or the Jirst correction? and Table II. £ sin 1" (/> sin A) 1 tan a or the second
correction, assuming p = 79' o", and a = 19 o'. Table III., which depends
on the difference between the true and assumed values o£p and a, contains the
third correction increased by 1' for the purpose of rendering the quantities
additive. A fourth term — £ sin* 1" (p cos A) (p sin A)' is omitted, its greatest
value being less than o"*5.
In the construction of this Ephemeris generally, duplicate and independent
computations have been made where necessary; all results admitting of such
test have been examined by differencing, and every precaution taken to secure
accuracy in the printing.
J. B. HIND,
Superintendent
Nautical Almanac Office,
3, Verulam Buildings, Gray's Inn, London*
October 30, 1878.
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Ill
PRINCIPAL ARTICLES OF THE CALENDAR,
For the Year 1882.
Golden Number
Epact - - -
Solar Cycle -
2
I Dominical Letter
- - A
II
Roman Indiction - -
• - 10
is
| Julian Period- - •
- - 659S
FIXED and MOVABLE FESTIVALS, ANNIVERSARIES,
Sfc. Sfc.
Epiphany - Jan. 6
Septuagesima Sunday - - Feb. 5
Quinguagesima — Shrove Sunday - 19
Ash Wednesday - - - - - -22
Quadragesima— 1st Sun. in Lent - 26
St. David Mar. 1
St. Patrick 17
Annunciation — Lady Day - - - 25
Palm Sunday ----- April 2
Good Friday 7
EASTER SUNDAY - - - - 9
Low Sunday -------16
St. George 23
Rogation Sunday - - - - May 14
Ascension Day — Holy Thursday May 18
Birth of Q. Victoria 24
Pentecost— WhU Sunday - - - 28
Trinity Sunday - - - - June 4
Corpus Christi 8
Accession of Q. Victoria - - - - 20
Proclamation ---....21
St. John Bapt* — Midsum. Day - - 24
St. Michael — Michaelmas Day Sept. 29
Birth of Prince of Wales - - Nov. 9
St. Andrew --- 30
1st Sunday in Advent- - - Dec. 3
St. Thomas 21
Christmas Day * - 25
The Year 5643 of the Jewish Era commences on September 14, 1882.
Ramadan (Month of Abstinence observed by the Turks) commences on
July 17, 1882.
The Year 1300 of the Mohammedan Era commences on November 12, 1882.
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'I
I
EXPLANATION OF
ASTRONOMICAL SYMBOLS AND ABBREVIATIONS.
© The Sun,
<T The Moon,
5 Mercury.
? Venus.
or J The Earth.
h Hours.
m Minutes of Time.
■ Seconds of Time.
0. t Aries -
1. 8 Taurus -
II. n Gemini
HL s Cancer -
- 30
- 60
- 9°
$ Mars.
% Jupiter.
T? Saturn.
Ijl Uranus.
^ Neptune.
Degrees.
' Minutes of Arc.
" Seconds of Arc
IV. SI Leo- - • 120
V. tip Virgo - -. 150
VX £± Libra - - 180
VIL ttt Scorpio - 210
6 Conjunction.
D Quadrature.
g Opposition.
Q Ascending Node.
8 Descending Node.
N. North. S. South.
E. East W. West.
o
VUL t Sagittarius 240
IX. Vf Capricornus27o
X. ss Aquarius - 300
XL K Pisces - - 330
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ERRATA.
{Continued from p. x of the Nautical Almanac for 1881.)
*»i.>*u uj c*rr-r*e*i
NAUTICAL ALMANAC FOR THE YEAR 1881.
(In some Copies.) -
Page 442, Oct. 15 for 4> iy* and 14* 44™ read 3* 25™ and 13* 46*
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1882.
Men Noon.
Apparent
Obliquity.
The Son's
FTBOOMton
in
Longi-
tude.
Nutation in
Mean
Longitude
of
Moon's
Ascending
Node.
Horizontal
Parallax.
Aberration.
Long.
Obli-
quitj.
R.A.
(jntime.)
t
Jan. I
SI
/
23 27
12*58
£8
9-00
O'OO
8-99
20-79
20-79
20-77
*
O'OO
138
2-75
17*07
»
— 4* 02
3 99
3 92
s
+ I'OI
1-03
1*04
/
247 14*84
246 43*07
246 11*30
31
Feb. 10
20
12-74
12*85
12-94
898
8 96
894
20-74
20-71
20*67
4'i3
6-88
+17*13
17*05
16*80
-381
3 70
3'59
+ i # o5
1*04
1*03
*45 39*53
244 35 98
Mar. 2
" J
22
1298
1298
12*92
8-92
8-90
8*87
20*62
20*56
20-50
826
963
11*01
+ 1644
»597
»5'47
-3 54
35*
3*58
+ I"OI
098
095
244 421
243 32*44
243 067
Apr. 1
11
21
12-77
1257
12-34
885
882
8-8o
20-44
20*39
20-33
12-38
13-76
15 13
+ 14*97
»4*54
14*20
4"
+0*02
O-89
0*87
242 28-89
241 57*12
241 25*35
May 1
11
21
12-07
11-81
1155
8-78
8-76
8-74
20*28
20*23
20*19
16-51
1789
19*26
+ i3'99
1393
14*00
-4* 36
4*6*
487
+o*86
0-85
o*86
240 53*58
240 21 *8o
239 50*03
T 3 1
June 10
20
1133
11 14
II'OI
8-72
V 71
871
20*16
20*13
20*12
20*64
22*01
23* 39
+ 14*19
14*47
14*81
—508
5*5
5'37
+0*87
0*89
0*91
239 18*26
238 46*49
238 14*71
30
July 10
20
1095
1095
1099
8-70
8-70
8-71
20' II
20-11
20*12
24*77
26-14
2752
+ 15-14
1543
1564
-5 4*
5 41
535
+0*93
094
0*96
237 42*94
237 11*17
236 39*40
A J °
Aug. 9
19
11-07
11*17
11*26
8-72
873
8*75
20*14
2OM7
20*21
28*89
30*27
3165
+ 15*74
15-70
1551
—5*26
5'i5
5*04
+096
0*96
095
236 7-62
235 35*85
235 4*08
Sept 8
18
11*32
1134
11-32
8-77
l'l 9
8*8i
20*26
20*31
20*36
33 02
34 4<>
35*77
+ 15*20
14*76
14*27
-4-96
4-91
493
+0*93
O'OO
0*87
234 32*31
234 053
233 28*76
28
Oct 8
18
1124
11-09
10-90
8-84
8-86
889
20*42
20*4.8
20-54
37*15
38 53
3990
+13-75
13*24
I2*8l
-4*99
5"
5*31
+0-84
0-81
0-78
232 5699
232 25*22
231 53-45
28
Not. 7
17
10-65
10-37
IO'II
8*91
893
8-95
20-59
20*64
20*69
41*28
42*65
4403
+ 1249
12*31
12*28
-5*55
581
606
+0*76
0*75
0-75
231 21*67
230 49*90
230 18*13
Dec 7
17
9-86
967
952
V 9 l
8-98
8-99
20*7J
20*76
20*78
4 f' 7 !
48 16
+ 12*41
12*64
12*96
—6*30
649
662
4.0-76
0-77
0*79
229 46*36
220 14*58
225 42*8l
*7
37
9*44
9'44
9-00
900
20*79
20*79
49' 53
50*91
+ 13-3I
+ 13*62
-6*68
-6*68
+o*8i
+083
228 II*04
227 3927
Me
Pk
Ph
an Obtiqnii
(cession for
^cession for
y, Jan. 1,
the Year
t "Dav
1
1882 23 27
,88- .......
l6 *60
50*2597
O* H7n
DatlyMotion
/
-3*1773
w 137
(nautical almanac, 1882.)
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JANUARY, 1882.
AT APPARENT NOON.
1
1
3
*
1
1
THE SUN'S
Sidereal
Time of
the Semi-
diameter
Equation of
Time,
to be
added
Apparent
Right Ascension.
Var.
in
1 hoar.
Apparent
Declination.
Var.
in
1 hour.
passing
the
Meridian.*
to
Apparent
Time.
Vax.
in
1 hoar.
Sun.
Mon.
Tues.
1
2
3
h in s
18 48 2*62
18 52 27*30
18 56 51*61
s
11-035
11*021
11*005
/ «
S.22 59 37*7
22 54 20*1
22 48 35*2
12*66
13*80
14*94
m s
I 11*06
I 11*01
I 10*96
m s
3 5348
4 "'53
4 49'*o
s
1-176
1*161
1*145
Wed.
Thur.
Frid.
4
1
19 I I5*S2
19 5 39-00
19 10 2*04
10*987
10*969
10*950
22 42 23*1
22 3c 44*1
22 28 38*2
16 '06
17*19
18*30
I 10*91
I 1085
i 10-79
5 16-48
5 43*33
6 974
1*128
I" no
1*090
Sat.
Sun.
Mon.
1
9
19 14 24*60
19 l8 46*66
19 23 8*20
10*930
10*908
io*886
22 21 5*7
22 13 6*7
22 4 41-0
19*41
20*50
ax*59
1 10*72
1 10*65
1 10*58
6 35*67
7 i-ii
7 26*02
1*070
1*049
1-027
Tues.
Wed.
Thur.
10'
II
12
19 27 29*20
19 31 4964
19 36 9*49
10-863
10-839
10*815
21 55 50*6
21 46 33*9
21 36 51*7
22*66
23*72
24*78
i 10*50
1 10-42
1 10*33
7 5°'4o
8 14*21
* 37*45
1-004
0*980
0*956
Frid.
Sat.
Sun.
13
15
19 40 28*74
19 44 47*36
19 49 5*35
10*789
10*763
10*736
21 26 44*3
21 l6 12*1
21 5 15-3
25*82
26*85
27*87
1 10*25
1 10*16
1 10*06
9 o-o8
9 22*o8
9 43 "45
0*930
0*904
0*876
Mon.
Tues.
Wed.
16
19 53 22*67
19 57 39*31
20 1 55*24
10*708
10*679
10*649
20 53 54*2
20 42 9*1
20 30 0*5
28*88
29*87
30*84
1 9*97
1 9-87
1 9*77
10 4*15
10 24*18
10 43-50
0*849
0*820
0*790
Thur.
Frid.
Sat.
19
20
21
20 6 10*44
20 10 24*89
20 14 38*58
10*618
10*586
"'554
20 17 28*7
20 4 34*i
19 51 17*0
31*80
3»'74
33*67
1 9*67
1 957
1 9-46
II 2*10
II 19*95
II 37*03
0*759
0*728
0*695
Sun*
Mon.
Tues.
22
23
24
20 18 51*48
20 23 3*59
20 27 14-88
10-521
10*488
10*454
19 37 37*7
19 23 36-7
19 9 14*4
34'59
35*49
36*37
i 9*36
1 9*25
1 9*14
11 53*33
12 8-84
12 23*54
0*663
0*629
o-595
Wed.
Thur.
Frid.
It
*7
20 31 25*36
20 35 35*01
20 39 43*83
10*419
10*385
10*350
18 54 31 'O
18 39 27*1
18 24 2*9
37'*4
38*09
38*92
1 9*03
1 8-92
1 8*8i
12 37*42
12 50*48
13 2*72
0*561
0*527
o-493
Sat.
Sun.
Mon.
Tues.
28
29
30
3*
20 43 51*82
20 47 58-98
20 52 5-30
20 56 10-78
10*316
10*281
10-246
10*211
18 8 18-9
17 52 15*5
17 35 53*0
17 19 n*8
39*74
40'S4
41*33
42*10
1 8*69
1 8*58
1 8*46
1 8*35
13 14*12
13 24*69
13 34*43
13 43*33
0*458
o*4»3
0-388
0*354
Wed.
32
21 15*43
IO*I76
S.17 2 12*4
42-85
1 8*23
13 51*40
0*319
*Mean Time of the Semidiameter passing may be found 1
by subtree
ting o»* 196
•om the Sidereal Time.
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II.
01
lllllJAIlI
, 1882
•
3
. — ^-
AT MEAN NOON.
! *
4
THE SUN'S
Equation of
Time,
*
to be
iubtracted
O
•*4
O
Apparent
Right Ascension.
Apparent
Destination.
Semi-
diameter.*
from
Mean
Time.
Sidereal Time.
Mon.
Tun.
I
a
3
h m g
18 48 1*91
18 52 26*50
18 56 50-72
§ *
S.22 59 38-5
22 54 21 'I
22 48 36*4
/ n
16 l8'2
16 18-2
16 18-2
m 1
3 53"4i
4 2i*44
4 49*"
h m ■
18 44 8*50
18 48 5-06
18 52 1*62
Wed.
Thur.
Frid.
4
5
6
19 I 1455
19 5 37-96
19 10 0*91
22 42 24*5
22 35 45-7
22 28 40'0
16 18-2
16 18-2
16 18-1
5 1638
5 43'"
6 9*62
18 55 58*17
1* 59 54' 73
19 3 5129
'Sat.
Mon.
I
9
19 J4 23-40
19 18 45 '39
19 23 6-86
22 21 7*8
22 13 9*1
22 4 44-3
16 i8-i
16 18-1
16 i8-o
6 35*55
7 0-98
7 *5'9°
19 7 47'«5
19 11 44-40
19 15 40-96
.Tues.
'Wed.
Thur.
IO
ii
12
19 27 27-79
19 31 48-15
19 36 7*94
21 55 536
21 46 37-1
21 36 55-2
16 18-0
16 17-9
16 17-9
7 50-27
8 14-08
8 37-31
19 19 37*52
19 23 3408
19 27 30*63
Frid.
Sat.
Sun.
»3
H
IS
19 40 27-13
19 44 45-69
19 49 3-61
21 26 48-2
21 16 16*3
21 5 19-8
16 17-8
16 17-7
16 17*7
8 59-94
9 *i - 94
9 43-3 1
19 31 27*19
19 35 23-75
19 39 20-30
Mon.
Tues.
Wed.
16
18
19 53 20-87
*9 57 37-45
20 i 53-33
20 53 59-0
20 42 14-3
20 30 6*i
16 17-6
16 17-5
16 17-4
10 4*01
10 24*04
10 43*36
19 43 16-86
19 47 13-42
19 5i 9'97
Thur.
Frid.
Sat
*9
20
21
20 6 8*49
20 10 22*90
20 14 36-54
20 17 34-6
20 4 40.-3
19 51 23-5
16 17-3
l6 17-2
16 I7'I
11 1-96
11 19-81
11 36*90
19 55 653
19 59 3*09
20 2 59*64
5mm.
Mon.
Tues.
22"
23
24
20 18 49*40
20 23 1-47
20 27 12-73
19 37 44-6
19 23 43-9
19 9 2;I*9
l6 1.7*0
16 io*9
16 i6*8
11 53-20
12 8-71
12 23*41
20 6 56-20
20 10 52-75
20 14 49-31
Wed.
Thur.
Frid.
*7
20 31 23*17
20 35 32-79
20 39 41-59
18 54 38-9
18 39 35*3
18 24 11 '4
16 16-7
16 166
16 16-5
12 37*30
12 50*37
13 2-61
20 18 45-87
20 22 42*42
20 26 38-98
Sat
Sun.
Mon.
Tues.
28.
29
30
3i
*o 43 49'55
20 47 56-68
20 52 2-98
20 56. 8-45
18 8 27-7
17 52 24-5
17 36 2*3
17 19 21-4
16 16*4
16 l6'2
16 16' 1
16 15-9
13 14-02
13 24*60
13 34' 34
13 43'*5
2030 3553
20 34 32-09
20 38 28*64
20 42 25*20
Wed.
3*
21 O 13*08 |S.I7 2 24 -3.
16 15-8
13 51-33
20 46 21-75
*T
he Semidiameter for Apparent Noon may be 1
usumed the s
ame as that £01
Mean Noon.
Digitized by
B Z
O
4
JANUARY, 188*.
III.
MEAN TIME.
I
i
O
t
THE SUN'S
Apparent
Logarithm
of the
Badiu
Vector
of the Berth.
Traaait
of the
First Point
of
Ariel.
THE MOON'S
Longitude.
Latitude.
Semidiameter.
Horiaontal Parallax.
AW.
Noom.
Norn.
Noom.
Midnight
Noom.
Midmgkt.
i
s
3
/ *
281 2 288
282 3 375
283 4 456
m
N.o*42
0-30
0*19
9*9936631
9926633
'9936663
h m •
5 14 59 75
5 11 384
5 7 793
t *
•5 »5'7
15 8-3
15 15
1 »
15 ii-8
15 48
14 58-5
t *
55 54- 7
55 *7"4
55 *9
1 »
55 40-7
55 148
54 Si 8
4
I
284 5 538
285 7 I'O
286 8 9*8
N.o'o8
O'OO
S.006
9* 99367s 1
'9936807
•9936931
5 3 I3'02
4 59 i6*ii
4 55 30*30
14 55-5
14 508
14 47* *
14 488
14 459
54 4i 4
54 *3©
54 10- 3
54 33
54 1-5-3
S4 5*5
J
9
287 9 175
288 10 25*2
289 11 32*7
0*IO
0*12
0*12
9*9937063
'993733s
•9937438
4 51 34*s8
4 47 *8'37
4 43 3* - 4-5
14 45*0
14 46*6
14 44-6
»4 45 4
14 48 4
54 *5
54 i'4
54 83
54 i'o
54 38
54 15
10
ii
12
290 12 40*1
291 13 474
292 14 54 -6
O'lO
S.C05
N,0*02
9*99*7648
•9937803
'9938163
4 39 36"55
4 35 4064
4 3 1 44-73
14 50*9
14 57*8
15 74
14 540
15 3-3
15 133
54 *4»
54 494
55 346
54 355
55 5'8
55 45'7
13
«4
15
293 16 1*7
294 17 8*0
295 18 15-3
0*11
0*23
035
9-9928453
•9938764
•9939096
4 37 48-83
4 *3 5*'9°
4 19 S-5'99
15 195
l 5 33'7
*5 49*3
15 364
«5 4i "4
»S 57*3
56 8-9
57 i*o
57 580
56 34-1
57 39- 1
5» S7*s
16
18
296 19 21*8
297 20 28 a o
298 21 33*8
0-49
0*62
0-75
999,944,
•993981?
♦9930198
4 16 1*08
4 is 5-17
4 8 936
16 5-3
16 19-9
16 31*9
16 is-8
16 s6*3
16 36* 5
5 8 56*1
59 500
60 34-3
59 *3*9
60 137
60 50*9
«9
so
SI
299 22 39*0
300 23 43-4
301 24 47*o
0*86
0-94
097
9 9930595
•9931007
993*433
4 4 1335
4 © 17-44
3 56 3153
16 390
16 43-8
16 40*4
16 43*0
16 43*3
16 373
61 3-3
61 14*0
61 5*3
61 11*1
6l IS'O
60 54*0
t*
33
*4
302 25 49*7
303 26 51-4
304 27 51-9
°*97
0-05
0-89
99931874
•9933130
•9933803
3 53 35*63
3 48 39*71
3 44 33»o
16 33-3
16 33-4
16 9*4
16 38'3
16 161
16 3-5
60 39*'
59 59 4
59 "'7
60 30*6
59 3$'3
5* 4«- 3
s6
*7
305 28 51-3
306 29 49c
307 30 46-6
o*8o
0-69
057
9 '9933*94
•9933803
9934333
3 40 37' 80
3 36 4*-9»
3 33 46-07
•5 5S'5
15 41-8
15 39- 1
15 48-6
IS 35*3
15 333
58 so* 7
57 3o-5
56440
57 553
57 6-7
56 23*7
s8
*9
30
3i
308 31 42-4
309 32 370
310 33 30-4
311 34 225
o'4S
0*32
0'20
N.o-09
9 9934885
•9935460
•9936058
•9936679
3 38 50*16
3 *4 54" *5
3 *© 58-34
3 17 *43
15 179
15 8*4
15 0*5
•4 543
15 139
15 43
14 573
'4 51*7
56 39
55 *8o
54 59*
54 3-5-3
55 44'7
55 i*-8
54 47-°
54 *6'9
3*
312 35 13-4
0*00
9 9937334
3 «3 -5-5*
'4 49*5
14 47-6
54 18-8
54 ISO
Digitized by
Google
IF.
JANUARY, 1882.
5
MEAN TIME.
1
•
ja
o
THE MOON'S
Xmgitada.
Latitude.
Age.
Meridian Passage.
Nam.
MidmgkL
Noom.
Midnight.
Noom.
Upper.
XOttef*
\'\
z
» »
67 27 185
79 59 i*'o
92 21 15-1
9 if
88 11 26-8
98 28 52*1
/ »
N.o 7 34*0
S. 1 35* 1
*• 4 493
/ »
8. 26 48*6
1 33 225
* 34 35*8
d
n-3
I2'3
133
h m
9 59 4
10 51*2
n 41-6
h m
22 25-4
23 ID'6
4
i
104 34 26*3
no 40 i*6
128 39 17-1
no 38 6-6
122 40 21*6
134 37 o*4
3 t 23*7
3 51 03
4 *« 5**3
3 27 56-6
4 « M"4
4 43 *i*4
143
T 3
io*^
12 30*1
13 16*3
14 0-4
6 a i
1 38-6
I
9
Ho 33 45*5
152 25 28*8
164 17 53
146 29 48-7
158 21 6-5
170 13 515
4 54 43*1
5 7 4S*o
5 7 34-4
5 * S*«
5 9 i9'4
5 * 3° - 3
17-3
183
193
14 42*8
15 *4»
16 5-4
2 2I a 8
3 3-6
3 44-8
' IO
in
12
176 11 53-4
188 13 50*2
200 27 23-9
182 11 42 'O
194 18 5*3
200 40 i*s
4 54 8-2
4 27 40-1
3 48 41 -6
4 4* 3«*3
4 9 4i'9
3 24 46*2
20'3
21*3
22*3
16 47-1
17 305
18 163
4 26-1
5 8-s
5 530
13
14
15
212 57 20'8
225 48 23*0
239 4 37-0
219 19 57*0
232 23 8-1
MS 53 7*9
2 58 5-2
S. 48 16-9
s 28 49*9
1 23 364
8.0 11 41*0
233
a 4'3
25-3
•9 54
19 584
20 552
6 404
8 26-4
16
252 48 50-8
207 1 43*i
281 40 55-9
259 51 46- 3
274 18 i8'5
289 8 46-1
N.o 25 41*5
1 40 27*1
* 50 45*7
N.i t 168
2 10 31-3
3 22 26*7
26*3
273
283
21 549
22 56*0
23 56*5
9 *4'8
10 25-4
11 26*4
19
20
21
296 40 48-4
311 52 36-0
327 5 41-3
304 15 51 '2
3i9 «9 4o-3
334 39 198
3 50 5«'3
4 35 *6"3
5 33'9
4 15 *W
4 5o 35*6
5 5 130
2 21
i-8
« *
552
1 51-4
12 26*1
13 2V6
14 18-7
22
*3
*4
342 9 242
35* 54 54*7
n 16 25-7
349 34 5* -5
i 8 s r 8
18 17 i8'9
5 4 34-i
4 48 6*6
4 13 45*o
4 58 462
4 3* 57*3
3 5o 59*
2*8
* 45 "4
3 37*7
4 *9*»
15 if;
16 35
16 54-9
27
25 11 32*0
38 40 40*6
51 46 18*9
31 59 HO
45 16 13*8
58 11 *4'7
3 »5 i°'4
2 20 28-1
1 21 38'!
2 56 490
1 54 348
N.o 48 4*8
a
78
5 ao-5
6 12*1
7 4o
l l 4 o" 3
18 38-0
19 30*1
28
*9
JO
3'
64 32 0*7
77 1 40-2
89 19 i*7
101 27 19*2
70 48 36*1
83 n 40*2
95 *4 7'8
107 28 54 -3
N.o 14 20*0
8. 52 10*3
1 55 0-3
2 51 393
S. 19 12*4
1 24 12*7
2 24 14-8
3 16 58*2
8-8
9 1
108
11-8
7 561
8 47-6
9 380
10 26*6
20 2I A 9
21 13*0
22 2*5
22 50'2
3*
113 29 9*0
119 28 17-3
S. 3 39 57-2
S. 4 23*6
12-8
11 133
*3 359
Digitized by
Got
o
JANUARY, 1882.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Right
Ascension.
Tar.
in id-.
Declination.
Var.
in io".
1
Right
Ascension.
Var.
in io".
Declination.
Var.
in xo".
StUTDAT I.
Tuesday 3.
tarns i
/ 9 *
h m s s
/ * *
O
422 31*25
14*677
N.21 41 29*0
*3'43
610 6*27
21*943
N.21 21 8-9
30*94
I
42447-30
22*674
21 4346*1
22*27
I
6 12 17-84
21*914
21 18 O'l
31-98
2
4*7 3*34
22-672
2145 56*2
21*10
2
6 1429*24
21*887
21 1445*1
33*02
3
4 29 19*36
82*668
214759*3
19*93
3
6 1640-48
21-858
21 II 23*8
34* 06
4
43135-36
22*664
2149 553
18*76
4
6 18 51-54
21*829
21 756-4
35*09
5
433 51*33
436 7-27
22*659
215144*4
21 53 26*4
17*59
i
621 2*43
21* 800
21 422*7
36*12
6
22*654
l6'42
623 13*14
21*770
21 O42-9
37'*3
1
43823-18
22 * 649
2155 1-4
15*25
7
625 23*67
21*740
205657-1
38-H
44039*06
22*643
21 5629*4
14*08
8
62734-02
21*710
2053 5*2
39*15
9
4425480
445 io-68
22*635
2157503
I89I
9
62944-10
631 54*18
21-680
2049 7-3
40*15
10
22*628
2159 43
u*75
10
21-648
2045 34
41*15
11
44726-43
22*621
22 0.11 '.3
io*|8
11
634 3-97
63613-58
21*617
204053-5
48*14
12
44942-15
4SiS7'78
22*613
22 1117
9*40
12
21*586
203637-7
43-12
*3
22*603
22 2 4*'i
8*24
13
6 38 23-00
21*553
2032 16' I
44-09
H
4541337
45628*90
22-593
22 250*1
7*08
H
640 32*22
21*521
202748-6
45"<>7
15
28*583
22 329*0
5*91
15
64241-25
21*488
2023 15-3
20 10 36*2
46-03
16
4S8 44-37
88*573
22 4 1-0
4*75
16
64450-08
21*456
46*98
:s
5 059-77
22*561
22 426*0
3'59
17
64658-72
21*423
20I3 5I-5
47*93
5 3 '5* 10
22*550
22 444*1
2*43
18
649 7' 16
21*390
20 9 I'O
48-88
19
5 5 30*37
22*538
22 455-2
1*27
19
651 15*40
21*357
20 4 4-9
49*82
20
5 745*55
22*523
22 459-4
22 456-6
0*12
20
65323-44
21*323
1959 3-2
195556-0
194843-2
50*74
21
5 10 0-65
22*510
1*04
21
6553127
21*288
51-67
22
5 12 15-67
22*497
22 446-9
2*18
22
65738-90
21*255
52*58
*3
5 1430 61
22*482
N.22 430-4
3\33
*3
65946-33
21*221
N.I943 25*0
53*49
1
[OEDJ
iJ 1.
Wedees
DAT 4.
O
51645-45
22*466
N.22 4 6-0
22 336*6
4*48
7 153*55
21*186
N.1938 1-3
54*40
I
5 19 0*20
22*450
563
I
7 4 0-56
21*152
19 32 32*2
55*29
2
5 21 14*85
22*433
22 2 59*4
6*77
2
7 6 7-37
2I*u8
192657*8
1921 io-i
56*17
3
5 2329-40
22*417
22 215-4
7-90
3
7 8i3*97
21*083
57* 06
4
52543-85
52758-19
22*399
22 1 24*6
9-03
4
7 1020*36
21*047
191533-1
57*94
5
22*381
22 027-0
10*17
5
7 12 26*53
21*012
19 942-8
58*81
6
5 30 12*42
22*363
21 50*2-6
21 58 11-4
11*30
6
71432*50
20*977
19 3 47*4
185746-9
59*66
7
5 32 26-54
«'343
12*43
7
7 16 38*25
20*941
60*52
8
5 3440-54
82*323
215655-4
21 55 28-8
13-55
8
71843*79
20*905
18 51 41-2
61*37
9
53654-42
22*303
14-67
9
72049*11
20* 869
184530-5
62*20
10
539 *' 18
22*283
215357-4
15*78
10
722 54*22
20*833
18 39 14-8
63*04
11
541 21*82
22-262
21 52 19*4
16*89
11
72459*11
20*798
18 32 54-0
63*87
12
5 43 35*3*
54548-69
22*239
215034-7
18 '00
12
727 3*79
729 8*25
20*762
182628*4
64*68
13
22**218
214843-4
19*10
13
2C726
181957*9
65*48
14
548 1-93
22*195
214645-5
20*20
H
731 12*50
20*690
18 1322*6
66-28
15
55015-03
22*172
21 4441*0
21-29
ii
73316*53
20*654
18 642-5
67*08
16
55227-09
5 5440*81
55653*48
5 59 6*oo
22*148
21 42 30*0
22*38
73520*35
20*6iS
175957*6
1755 8*o
1740 13*8
67*88
17
22-124
2140 12*4
«3'47
17
73723*95
20*583
68*65
18
22*099
213748-3
*4'55
18
73927*34
20*547
69-42
19
22*074
21 35 17*8
25*63
19
74130*51
20*510
173914*9
70*19
20
6 1 18-37
22*04?
21 3240*8
26*70
20
7 43 33*4*5
20 • 474
17 32 II *f
70*94
21
6 330-58
22*023
212957*4
27*77
21
74536-20
20*439
1725 3*6
> 71*70
22
6 542-64
21*996
2127 7*6
28*83
22
74738-73
20*403
171751M
7« '44
*3
£ 7 54*53
27*969
21 24 11*4
29*89
23
74941*04
20*367
171034*3
73*17
24
6 10 6-27
"'943
N.2121 8*c
\ 30-94
24
75143*13
20*3 3 1
N.17 3 13*1
73*89
Digitized by
Got
o
VI.
JANUARY, 1882.
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
i
H
O
I
2
3
4
5
6
7
8
9
10
11
12
»3
14
IS
16
\l
19
20
21
22
3
4
I
I
9
10
11
12
'3
14
\l
18
'9
20
21
22
*3
24
Bight
Ascension.
inioF.
Declination.
in id-.
Thubsday 5.
h m i
75345-01
7554668
7 574813
7 59 49' 3*
8 150*41
351-23
5 5I-83
752-23
952-42
8 11 52*41
81352-18
81551-75
81751-12
8 1950*28
82149*24
82348*00
82546*56
82744*92
82943*08
83141*05
83338*82
8 35 36*40
83733-78
8
aO*33I
20*896
80'26o
20*225
20*X9a
20*154
20*Il8
20*083
20'049
20*OI5
19**980
I9'945
19*9^2
19*878
19*843
19*810
«9 '777
*9'743
19*710
19*678
19*645
19*613
19*580
19-548
N.
N.
Friday
8 3930*98
84127-99
8432481
84521-45
84717*90
84914*17
8 51 10*26
853 6*17
855 191
85657*47
85852-86
9 048*08
243-13
58*02
4 3
632-74
827*29
9 1021*69
91215*93
9 1410*02
916 3*95
9»757'74
91951*57
92144*86
923 38*20
92531*40
i9*5i8N,
19*486
'9*455
19*424
19*393
19*363
*9'333
19'3°4
19*275
19*246
19*218
19*189
19*162
19-134
19*106
19-079
19-053
19*028
19*002
18*977
18952
18*927
8*903
18*878
18*855
7 3 13"
6 55 47'
648 17*
64043-
633 5*
625 22*
6 1736*
6 945-
6 1 50*
5 53 5*
5 45 49*
5 3743'
52932
521 18
513 o
5 4 39
45614
4 4745
43912
4 3° 3 6
42157
4 13 14
4 428
3 55 38-
6.
34645-
3 3749*
32850*
3 1947
3 10 42
3 *33
2 5221
243 6
23348
22428
215 4
2 538
156 9
14637
137 2
1 2725
"745
1 8 2
05817
048 30
o 3840
02847
01855
o 8 56
N. 9 58 56
73-89
O
74*62
I
75*33
2
76*03
3
76*73
4
77 # 43
5
78*10
6
78-77
7
79*45
8
80*11
9
80*76
10
81*40
11
82-03
12
82-67
^3
83*28
H
83-89
'5
84-51
16
85-11
17
85*69
18
86*27
l 9
86-86
20
87-43
21
87-98
22
88-54
*3
89*09
89*63
90*16
90*68
91*21
91-72
92*22
92-72
93*2i
93*69
94-17
§4-63
95-09
95*55
95 '-99
96*43
96*87
97*30
97*72
98*12
98*52
98*93
99*32
99*70
100*07
Right
Ascension.
Var.
in io».
Declination.
Var.
in 10".
Satvbday
h m s
92531*40
92724*46
92917*39
931 10*19
9 33 ** 8 5
9 34 55-38
9 36 47-79
93840-07
940 32*23
942 24-28
944 16*21
946 8*03
9 47 59-73
94951-3
-142*8
10
10
10
10
10
95
95334*22
9 55*5*51
95716*71
9 59 7*8i
058*83
249*76
440*60
6 31*36
822-05
■
18*855
18*833
18-811
18*788
18*766
18*745
18*724
18*703
18-684
18*665
18*646
18*627
18*608
18*592
18-574
iS'557
18*541
18*525
18*510
18*496
18*481
18*467
18 -454
18*442
SUHDAY
N.
N.
95856
9 48 55-
93851*
92845*
91837
848 o
8 3744
82726-
817 6
8 644
75621
7 45 55
73528
7*4 59
71429
7 3 56
65323
64247-
6 32 11
621 33
6 1053
6012
8.
IO IO 12
IO 12 3
10 13 53
•66
20
66
10 1544*06
101734*39
10 1924*67
1021 14*89
1023 5-05
102455-16
102645*22
1028 35*24
10 3025*22
1032 15*16
1034 5-06
10 35 54*93
I0 3744-77
'0 39 34-59
1041 24*38
104314-15
1045 3-91
104653-66
104843-39
1050 33-12
IO 52 22-8
10 54 12-5
18*429
18*417
18*405
18*394
18*384
18-375
18*365
18*356
18*348
18*340
18-333
18*327
18*320
18*314
18*309
18*305
18*301
18*297
18*294
18-292
18*290
18*288
18*288
18*288
18*288
N.
N.
5 49*9
53846*
528 i-
5I7I4'
5 627*
4 55 38
44449
4 33 58
4*3 6
4i*i3
4 "9
35024
33928
328 31
3 17 34
3 635
25536
24436
23336
2 22 35
2 11 33
2 030
14927
1 3824
1 2720
*
100*07
100*45
100*81
101*17
101*52
101*87
102*21
102-53
102-86
103-18
103-48
103-79
104-09
104-38
104-67
104*94
105*22
105-49
105-75
106*00
106*24
106 -49
106 • 73
106*96
107-18
107-39
107*61
107*82
108*01
108*19
108-38
108*57
108 • 74
108*92
109*08
109-23
109*38
109*52
109*66
109-79
109-92
110-03
110*14
110-26
110-37
110-46
iio*55
110*63
110*71
Digitized by
Goo
o
8
JANUARY, 1882.
VII.
1
9
10
11
is
»3
14
!i
:i
*9
20
SI
as
*3
9
10
11
12
13
H
l l
ID
17
18
19
20
21
22
*3
24
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Bight
Ascension.
Var.
into*.
Declination.
Var.
h m s
054 12*58
056 2*31
05752-05
05941*81
13157
32135
5 ii'io
Z °'P
85085
1040-75
12 30*66
14 20*62
l6 IO-62
18 067
19 50*77
21 40*91
23 31*12
25 21
27 II
29 2
30 52
3243
34 33
MOHDAY
N.
3624*41
18188
18*189
18*191
18*193
18195
18*199
18-303
18*308
18*311
18*317
18-314
18*330
18-338
18-346
18-353
18*361
18-371
18*383
18393
18-405
18*417
18*419
i8'443
18-456
s.
Tuesday
38 15*19 18-4718.
40 6-o6
41 57*02
4348-07
45 39
4730
4921*
5113-
53 i' o
5456-58
5648-40
5840-34
032*41
2 24*61
416-95
6 9*42
2 8 2*04
2 9 54 '81
2 1147*72
21340*79
2 15 3401
21727-39
2 1920-94
2 21 14*65
223 854
18-486
18*501
18-517
i8'533
18551
18569
18-588
18-607
18-617
18-647
18-668
18*689
18-711
i8'734
18*758
18*783
18*807
18*831
18*858
18*883
18*911
8938
18-967
18-996.8.
; 7
d-8
9-
O I
I 2720
1 16 15*
1 5 10
o54 5*5
04s 59*8
03153-8
o so 4.7*0
o 9411
is5*6
012 32*5
02330*5
03446*6
o4S 53*
057 i-o
1 8 8-2
11915-4
1 3022*4
141S04
46-s
237
248
15*3
s 34s
SI449
**5 554
1
6
IO.
s 5911-9
3 10 16*6
3 SI so-
3 3SS4-
343S81
354308
4 5 33'°
4 16 346
4*735
438
35
449 35
5 33 .
5 11 31-6
52228-6
53324-7
54419-9
I s ! 14 ' 1
! ! 7 ' 3
616595
62750*6
63840*5
64929*3
7 016-8
711 VI
72148*1
110*71
O
110*78
I
no- 85
2
110*93
3
110-98
4
XXI'Ol
5
1x1-06
6
III'IO
11113
1
ixx-16
9
in*i8
10
111*19
11
III'IO
12
III'IO
»3
111*10
14
xix*i8
i§
111*17
16
Iii*i5
a
in*xi
iix-08
19
111*05
20
111*01
21
110*95
22
xio-88
*3
110*81
O
ixo-75
I
xxo*68
2
110*60
3
110*50
4
110-41
5
1x0*31
6
110*11
1
110*09
109*97
9
109*83
10
109*71
11
109*58
12
109*43
13
109*18
>4
109' IS
if
108 * 95
16
108-78
\l
108 * 61
108*42
19
108*13
20
108*03
21
107*81
22 #
107*61
*3
107*39
24
Bight
Ascension.
"far.
into".
Declination.
Var.
Wbdhbsday
bus s
[223 8*54
[225 2*60
22656*84
2 2851*26
23045-87
2 3240*67
23435*66
2 36 30*84
2 3826*23
24021-82
2 42 17*62
2441363
246 9*85
248 6*29
250 295
2515984
2535695
* 55 54* jo
25751*89
25949*71
147-78
346*09
5 4465
743*47
18*996 S.
9*015
19*055
19*086
19*118
19* 149
19*181
19*114
19**4*
19*183
19318
19*353
19*388
■*9*4*5
19-463
19*500
19*538
19*578
19*618
19*658
19*698
»9 # 739
19*781
19*814
II.
o / */
72148*
73231'
743H
7 53 54
8 4 34'
8 15 12'
82548
8 36 23 •
84656'
85727-
9 7 57'
9 1825-
92851-
9 39*5'
949 3$'
9 59 5f'
10 10 16*
102033'
103047-
104059-
10 51 9-
11 1 17'
II II 22'
S.II 21 25*
Thubsdat 12.
94*'54
1141*87
i3 4i-47
i54*'33
1741-46
1941*87
2142*55
2343*52
2544*76
2746*29
2948*11
31 50*22
3352*63
35 55*33
37 58-34
40
42
44 9-19
4613*42
48 17*08
5022*85
5228-04
54 33*56
5639*40
58 45-57
19*867
19-911
19*955
19-999
10*045
10*091
10*138
10*184
10*131
10*179
10*318
10*377
10*416
10*476
10*5*6
10*577
10*619
so '680
10*731
20*786
10*838
10*891
10-947
11*001
11*056
S.11 31 26-
II 41 24
11 51 20
12 I 13
12 II 3
12 2051
I23037
12 40 19
« 49 59
125936
13 Q IO
13 o 4 o*
1328 8*
1337 33*
134655*
13 56 14*
14 529*
141441*
142350*
14 3*55'
144156*
i4 5°55 %
14 59 49-
15 840*
'S.15 1727*
*
107*39
107*16
106-93
106*69
106 • 44
106-18
105*91
105-66
105-38
105 09
x 04-80
104*50
104*19
103-88
103-56
103-13
102*90
10155
101*19
101*84
101*47
101-08
100-71
100*31
99*90
99'49
99* 08
98 65
98*21
97*77
97*31
9685
96*38
95*89
95-41
94-9I
94*40
9388
93*35
92-82
92-28
9i*73
91* 16
90* 58
89*99
89-40
88-8o
18
57*55
Digitized by
G005I
Fill.
JANUARY, 1882.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
Bight
Ascension.
Var.
inio**.
Declination*
Var.
in I©".
i
X
Bight
Ascension.
Yar.
inxe".
Declination.
Var.
inioF.
Fkidai
' 13-
SUHDAI
15-
km* ■
O f 9 -9
ta m s s
t * *
135845-57
21*056
8.I5I7 27*9
«7*55
154640*55
23*942
8.204457*9
44*50
I
14 052*07
21*112
15 26 11*3
86*92
1
1549 4*38
24*000
204921-4
43*3*
1
14 25891
21' 168
1534509
86-28
2
155128*55
24*058
205337*7
2057468
41-11
3
14 5 6*o8
21*123
1543 26-6
85*62
3
15535308
15 56 17*95
155843*16
16 I 871
24*117
40-91
4
14 71359
21*280
i5 5i5f-3
16 026*0
84*95
4
24*173
21 148*7
39-71
5
14 921-44
21*337
84*28
5
24*230
*i 5433
38'48
6
14 11 20*63
141338-17
21-394
16 849*6
83*59
6
24-287
21 930*4
37**3
7
21*452
16 17 9*1
82*89
1
16 3 34*60
16 8 0*82
*4*343
21 13 io*i
21 1042*3
35'99
8
14154706
141756-29
1420 5*88
21*510
162524-3
82*18
24-398
34'73
9
21*568
163335-3
81 -47
9
16 827*37
*4*453
21 20 6*9
33 "47
10
21*627
16 41 41*9
80*73
10
16 1054-25
24-507
21 2323-9
31-18
ti
1422 15-82
21*686
16 49 44* 1
79*99
11
16 1321-45
24-560
21 2633*1
30-89
is
142426*11
142636*76
21*745
165741*8
79**4
IS
161548*07
16 18 16*81
24-613
21 2934*6
19-60
'3
21*805
*7 5 3S-o
78*48
'3
24*666
21 3228-3
28-28
14
142847-77
21*865
171323-5
77*70
«4
162044*96
24718
21 35 14-0
26*96
15
143059-14
21*925
17 21 7-4
76-92
*S
1623 13*42
24*768
213751*8
15-63
16
14331087
21*985
172846*5
76*12
16
162542-18
24*818
21 4021*6
14-19
*Z
14 35 22 96
22*045
173620*8
75 "3*
\l
1628 11*24
24*868
214243-3
214456-9
11-94
18
«4 37 35HI
22*106
174350*5
175114-8
74' 50
163040*60
24*918
11*58
»9
14394823
22*167
73*66
^9
1633 10*25
24- 966
2147 2-3
214859-4
21 5048*2
10*11
20
1442 1 42
22*228
17 58 342
18 548*6
72*82
20
163540-19
25*013
18-83
I21
14444-97
144628-89
22*289
7197
21
1638 10*41
25*060
17*44
22
22*350
18 12 57*8
71*10
22
164040*91
25*105
21 52 28*7
16-05
*3
144843^7
22*412
8.1820 1*8
70*23
23
1643 11*67
«5*i5o
S.21 54 o-8
14-64
Satubdj
LT 14.
MOVDA
T l6.
145057-83
22*473
8.1827 0*5
69*33
O
i64542*7i'25-i95
S.2I 5524-4
215639-5
13*"
I
145312-85
22535
183353*8
68*43
I
1648 14*01
25*138
11*81
S
145528-25
22*597
184041*7
67*52
2
165045*56
25-279
21 5746*I
21 5844*1
10-38
3
145744*02
22*659
184724*1
66*6o
3
165317*36
25*321
8*94
4
15 0*16
22*721
1854 0*9
65*67
4
165549*41
25*362
21 59 334
7*50
5
15 2 16-67
22*783
19 032*1
64*72
5
1658 21-70
25*401
22 014- 1
6*05
6
*5 433*55
21*845
19 6 575
63*76
6
17 054*22
*5*439
22 046*0
4*58
I
15 650-81
22 907
19 13 17*2
62-79
1
17 32697
*5*477
22 1 9*1
311
15 9 844
22-969
19 1931*0
6i-8i
17 5 59-94
17 83313
17 11 6*53
25*513
22 1*3*4
22 128*9
1 -65
1 9
15 11 26*44
151344-81
15 i5 3-55
15 1822-66
23*031
192538*0
193140*8
60*82
9
•5*549
0-17
lio
23-093
59*81
10
«5*583
22 125*5
1*31
In
23*154
1937366
58*79
11
171340*13
17 16 13*93
15*617
22 1 13*1
2*81
IS
23*216
194326-3
57*77
IS
25-649
22 051*8
4*3©
»3
152042*14
23*278
1949 9-8
5*5-73
13
171847*92
25-680
22 021*5
5*8i
14
1523 199
*3*339
195447-0
55*67
14
17 21 22-09
25-711
21 5942*1
215853*7
21 5756*2
7*3*
15
152522-21
23*401
20 017*8
54-61
»S
172356*45
1726 30*97
25-740
8-83
16
15 2742*80
23*462
20 542*3
53*53
16
25*768
io*34
,'s
1530 3-75
23*523
20 11 0*2
5**44
\l
1729 5*66
*5'794
21 5649*6
ii*86
153225-07
23583
20 16 11*6
51*34
173140*50
25*820
215533*9
13*38
»9
I5 344-5-75
23*643
2021 16*3
50*23
'9
173415-50
a5-845
2154 9*0
14*92
20
1537 8-79
23*704
2026 14*3
49*10
20
173650*64
25-868
215234*9
x6*44
21
153931-20
23*764
2031 5-5
47*97
21
173925*92
25-891
215051-7 17-97
22
154153-96
23 823
203549*9
46*83
22
174436-86
25-912
214859-2 19*52
*3
154417-0823*882
204027*4
45'67
23
25-931
21 46 57*5'n*o5
i*4
15 4 6 4<>'55 *3*94»
8.204457*944-50
24
174712*5125-951
S.21 4446-6I 11*59
Digitized by
Got
o
IO
JANUARY, 1882.
IX.
MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
1
Bight
Ascension.
Var.
inio".
Declination.
Var.
inio".
1
Right
Ascension.
Var.
in io".
Var
Declination. m ld i.
Tuesday 17.
Thwbbday 19.
h m i i
/ » »
h m % 8
Of* *
O
174712-51
25-951
S.2I 4446*6 22*59
195146*43
19 54 19*68
25-556
S.17 312-3
92*28
I
174948*27
25*968
21 4226*4
»4*i3
I
25*526
165354*9
93*5i
2
175**4-13
25-985
213957-0
213718-3
25*67
2
195652-74
*5'494
164430*2
94*72
3
17 SS 0-09
26*001
27*22
3
195925-61
25*463
163458*3
95*93
4
175736-14
15 12*26
26*014
213430-3
28*77
4
20 158*29
25-431
1625 I9'I
97*i2
5
26*027
21 31 3VI
21 2826*6
30*31
5
20 430*78
25*398
161532*9
98-28
6
l8 248*47
26*040
31*86
6
20 7 3*07
*5*3*5
16 539*7
99*45
1
18 524-74
18 8 1*06
26*049
21 25 10*8
33*40
1
20 935*16
25*332
15 55 39-5
100*59
26*058
21 21 45*8
34' 94
20 12 7-05
201438*74
25*298
1545326
101*72
9
181037-44
26*067
21 18 ii'5
36*49
9
25*263
153518-9
102*83
10
18 13 13-87
26*075
21 1427*9
38*03
10
20 17 10*21
25*227
1524586
103*93
11
181550-34
18 1826-84
1821 3-36
26*081
21 1035-1
39*57
11
20 1941-47
25*192
151431-7
105*02
12
26-085
21 633*1
41*11
12
20 22 12-52
25*157
'5 358-3
145318*6
106*09
13
26-088
21 221*8
42*64
13
20 2443-35
25*121
107-14
14
1823 39*90
1828 16-45
26*091
20 58 1 -4
44' 17
h
2027 13*97
25*084
1442 32*6
108*18
15
26*092
2055 317
2.048 52-9
45*71
15
202944*36
25*047
143140-5
109*19
16
182853-00
26*092
47*»3
16
2032 1454
25*011
142042*3
110*20
17
183129-55
26*091
2044 4-9
48*76
:;
203444*49
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14 938-1
1358 281
111*18
18
1834 6*09
18 3642-61
26-088
10 39 7*8
50-28
20 37 14*21
*4*935
112*16
»9
26*085
2034 1*6
51*78
19
203943-71
24*89*
1347 12*2
113-12
20
18 39 19*11
26*081
202846-4
53 *9
20
2042 12*99
24*860
I3 35 50-7
114-05
21
184155-58
26*075
2023 22-1
54* 80
21
204442*03
24*822
I32423-6
114*97
22
184432-01
26*067
20 1748*8 56*30
22
2047 10*85
24-7*3
13 12 5I-I
115-88
23
1847 8*39
26*060
8.20 12 6-5 57*79
*3
204939*43
*4*744
S.I3 I 13*1
116-77
WSDVESl
>AY 1 8.
Pbidai
I 20.
O
184944-73
26*052
S.20 6 15-3
59*28
2052 7*7824-706
8,124929-9
117*63
I
18 52 21 -oi
26*042
20 015*2
60*76
1
2054 35-9024*668
12 3741*6
118*48
2
185457-23
26*030
1954 6-2
62-23
2
2057 3-79
24*629
122548*2
119*31
3
1857 33-37
26-018
194748*4
63*69
3
205931-45
24*590
121349*9
120*13
4
19 9-44
26*005
194121*9
65*15
4
21 158-87
24*551
12 146*7
11 49 38*8
X20*93
5
19 245-43
25*991
193446*6
66- 61
5
21 426*06
21 653*02
24*512
121*71
6
19 5*1-33
25*976
1928 2*6
68*05
6
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11 3726*2
122*47
1
19 7 57'H
25*960
I92I 10*0
69*48
7
21 919-74
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11 25 9-1
123*22
19 1032-85
*5*943
19 i± 8*8
10 6 59* 1
185940*9
70*91
8
21 II 46*23
24*396
11 1247-6
123*94
9
19 13 8-46
25*925
7**33
9
21 14 12*49
*4*357
II 021*8
in***
10
I9IS43-9S
191819-33
25*906
73*73
10
21 l6 38*51
24*318
104751*8
i*5*35
11
25*887
18 52 14*3
75*13
11
21 19 4*30
24*279
10 35 17*6
126-03
12
192054-59
25*866
18 44 39-4
183656*2
76-51
12
21 21 29*86
24*241
1022 39*5
126-68
13
192329*72
1926 4*72
25*844
77*89
13
212355-19
21 26 20*28
24*202
10 957-5
127-31
H
25*822
1829 4*7
79*27
H
24*163
95711-8
127-93
IS
192839*59
25*799
1821 5*0
80-62
15
21 2845*I5
24*126
94422*3
i*8-54
16
19 31 14-31
*5*774
181257*3
81*96
16
21 31 9*79
24*088
93129-3
I29'I2|
:i
193348-88
25-750
18 441-5
1756 17-8
83*29
l l
21 33 34*20
24*049
9 18 32*9
129-68.
1936233 1
25*725
84*61
18
213558*38
24*011
9 533'*
852 30-2
130-23
19
193857-58
25*698
174746-2
85*92
19
21 3822-33
23*973
130-77
20
194131-69
25*671
1739 6-8
87*22
20
21 4046*06
*3*937
8 3924-0
131*28
21
1944 5-63
194639-41
25*643
1730 19*6
88-51
21
2143 9*57
23*900
826 14-0
813 2*8
131*77
22
25*615
1721 24-7
89*78
22
21 45 32*86
23*863
i3*'*4
*3
194913-01
195146-43
25*585
17 12 22-3
91-03
*3
214755-92
23-826
75048*0
S. 74 6 30'4
132*70
H
25-556
S.17 3 123
92*28
24
21 5018-77
23-790
»33*H (
Digitized by
c
00
o
X.
JANUARY, 1882.
11
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
Right
Ascension.
in id".
Declination.
Ytf.
in id".
1
Bight
Ascension.
V«r.
inioF.
Declination.
Vsi.
in id".
Satubday 21.
MO IT DAY
*3-
h m a s
1 * n
h m s 1
O 1 M *
O
21 50 18*77
*3*79°
S. 74630*4
"33* 14
O
2341 2-3422-519
N. 31043-4
134*55
I
21 5241*40
*3'753
73310*3
133*56
I
2343 17-41,22-505
3*4 9*7
134-22
2
2155 v8i
21 5726*01
13-717
71947-7
7 622*8
133*96
2
234532-4022*491
33734-0
35056-1
133-87
3
23*682
134*34
3
*3 47 47*3°," '477
133*49
4
21 5948-OO
13-647
652 556
134*72
4
2350 2*1222*464
4 4i5'9
133*11
5
22 2 9-78
23*613
6 3926*2
135*08
5
23 52 l6-87|22*452
41733*4
43048-5
132*72
6
22 43 I "35
23-578
6*5 54' 7
135 *4*
6
2 3 54 3*- # 54" 438
235646-1322*427
13231
l\ 22, 6sz 'U
9 221134-84
*3'544
6 12 21-3
135*7*
7
444 i* 1
131-89
23-510
55846*1
136*02
8
2359 0*6622*416
45711-2
131*47
23-476
545 r l
136*30
9
1 15*1222-405
5 10 18-7
131*02
ro f 22 13 55 -59
«3'443
53130*5
136*56
10
329*5222-394
52323-4
130*56
11
22 ID l6'I5
23-411
51750-4
5 4 8-8
136*81
11
5 43- 85 22*384
53625-4
130*09
12
22 l8 36-52
23-378
I37-04
12
7 58 # i3«'375
54924-5
6 220*7
129*61
•13
22 2056*69
*3'347
45025-9
43641-8
137**5
13
10 12-3522*366
129*12
1 14122 23 id-68
»3'3i5
•37*44
H
12 26-5222*357
61513-9
128*62
I 1 *
22 25 36*47
23 183
42256-6
137*62
*5
1440*64
1654-71
019 8-74
22*349
628 4*i
128*10
!i6
22 2756*08
23- 253
4 9 l °'4
137*78
16
22*342
6 40 5 1 * 1
127*57
\ J 1
22 30 15*51
23-223
3 55*3*3
137*93
3
22*334
6 53 34*9
7 615-5
127*03
18
22 32 34*76
23*193
34i 353
138*05
021 22*72
22*327
126*48
'»
223453-83
23*163
' 32746*7
138*16
19
023 36-66
22*321
718 527
125*92
20 22 37 12*72
23-135
3*3 57-4
138*26
20
02550-57
22*316
7 31 26-5
1*5*34
21
223931-45
23-107
3 7*6
138-33
21
028 4*45
22*310
74356-8
7 5623-6
N. 8 846-9
124*76
22
22 41 50-OO
23-078
246 17*4
138*40
22
030 18*2922-304
i*4i7
23
2244 8-39
23*051
S. 2 32 26*8
138*44
23
32 32*IO;22*300
123*57
StrarsA
I zz.
TVBSDA
T 34.
224626-61
23-013
S. 218 36-1
138-46
O
03445*8922*296
N. 821 6-4
122*94
1
224844*67
2251 2*58
22-997
* 445'3
138-47
1
03659-65
22*292
8 33 22*2
122*32
2
22*972
15054*4
137 3-6
138*47
2
03913-39
22*288
8 45 34*3
121*69
3
12 53 20-33
22945
138*45
3
04127*11
22*285
«5742*5
121-04
4
225537*92
22*920
1 23 13-0
138-41
4
04340*81
22*282
9 946-8
120*38
5
"57 55*37
23 012-67
22*896
1 922-7
138-36
5
04554*50
048 8-17
22*280
921.47-I
119*72
6
22*872
05532-7
138-29
6
22*278
93343*4
119*04
7
23 229*83
23 446-84
22-848
04143*2
138-21
7
05021*84
22*277
945 35* 6
118*36
8
22*824
02754-2
138-12
8
5*35*49
22*275
95723*7
117*66
9
23 7 3-72
22*802
014 5*8
138-00
9
05449*14
22275
10 9 75
ii6'95
10
23 920*47
22*780
S. 18*2
137-87
10
057 2-79
22*275
102047-1
116*24
11
23 11 37*08
22*758
N. 13 28-7
137-73
11
05916-44
22*274
10 32 22*4
115-5*
12
231553-56
2316 991
22-736
027 14*6
137-57
12
1 1 30-08
22*274
i° 43 53*3
10 55 x 9'8
114*78
13
22*715
04059-5
137*40
'3
1 3 43*73
1 5 57*38
22*175
114-03
H
23 18 26*14
22*695
05443*4
1 826*1
137'**
14
22*276
n 641-7
113-28
15
23 2042*25
22*676
137*01
IS
1 811-04
22*277
111759-2
112-53
16
23 22 58*25
22-657
122 7-5
136*78
16
1 1024-70
22*278
II 29 12*0
111-75
'7
232514-13
22*638
135 47*5
136*56
:;
1 1238-38
22*280
II 40 20'2
11097
18
23 2729*90
22-619
1 4926-2
136*32
1 1452*06
22*282
II5I23-7
xxo*i8
19
232945-56
22*601
2 3 3*3
2 1638-8
136*05
19
117 5*76
22*284
12 2 22*4
10938
20
2332 i'ii
22*584
I35-78
20
11919-47
22*287
12 13 l6*3
108-58
!2I
233416-57
22-567
2 30 12-7
24344*8
135-50
21
1 21 33-20
12346-95
22-290
1224 5-4
107*78
22
23 36 31*92
22*551
135*20
22
22*293
123449-6
106*95
23
233847*18
22*535
25715-1
134*88
23
126 0-71
22*296
1245 28*8106*12
!'4
2341 2*34
22*519
N. 3 1043*4
134-55
24
1 28 14*50
22*299
N.I2 56 3'o'io5*28
Digitized by vjOC
O
12
JANUARY, 1882.
XI.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
Right
Ascension.
InioF.
Declination.
Vsr.
inio**.
1
Right
Ascension.
Var.
in io".
Declination.
inio*».
Wbdhesday 25.
Pbiday 27.
h a 1 i
1 * *
h m s s
9 * *
O
x 28 14*50
I 3028*30
22 * 299
N.12 56 3-0
105*18
O
31553*88
3 18 9*23
*»-557fN.I9 3 I 58-7
57-56
22*302
13 6322
104*43
I
11*560
193740*7
5«5'45
I 3242*13
22*307
13 1656*2
103*57
2
3 20 24 * 60
11-563
1943 16' I
194844*8
55*34
134 55*99
137 9-87
22-312
132715*1
101*72
3
3 22 39*98
11 565
54*22
22-315
1337288
101*85
4
3H55-38
11-567
1954 6*7
5310
13923-77
22*319
I3 47 37-3
100*98
5
3 27 10*79
11*570
195922*0
5198
6
14137-70
I4J5I-66
146 5 65
22*324
135740*5
100*09
6
3 2926*22
22-573
20 4305
5086
1
22-329
14 738*4
99*20
i
3 31 41*66
*»*574
20 932*3
49"73
22-334
141730*9
98*30
33357*11
3 36 1257
22*576
20 1427*5
20 19 15*8
48-61
9
148 19*67
22339
1427 18*0
143659*6
97*39
9
22-577
47*48
10
15033*72
15247-81
22*345
96*48
10
3 3828*03
12578
2023 57*0
4*5*34
11
"351
144635*7
95* 5*5
11
3 4043-50
34258*97
22*578
2028 31*7
45*21
12
X 5S i-93
1 5716*08
22-356
1456 6*3
94*63
12
22-578
20 32 595
44*07
13
22*361
15 531-3
93-7o
*3
3 45I4-44
22 578
203720*5
4**93
*4
1 59 30-27
22 367
151450*7
92*76
14
34729*91
22-578
204134-7
41*80
»s
2 144-49
2 3 5874
2 613*03
2 827*36
22*372
1524 4*4
91*81
15
3 49 45-38
352 0-84
22*578
20 45 42 • 1
40*66
16
21*378
15 33 "'4
90*86
16
22*577
204942*6
39*51
15
22 385
1542 14* 7
89*90
11
3 54 16*30
22-576
20 53 p-a
3836
22*392
15 51 11*2
88-94
3 5$3«'75
3 58 47* 18
22573
205722*9
21 I 2*8
37*22
19
21041*73
22*398
l6 O 2*0
87*97
19
12 571
36*08
20
2 12 56*13
22-403
16 8468
86 98
20
4 1 2*60
22*568
21 4358
34*93
21
2 15 10*57
11*410
l6 1725-8
162558*8
86-oo
21
4 3 18-00
21*565
21 8 1-9
33*77
22
2 1725*05
22-417
85*01
22
4 5 33-38
11*561
21 11 21*1
32-62
23
2 19 3957
11*413
N.l6 3425*9
84*02
23
4 748-74
11*558
N.2114334
3i '47
Thubsdj
lT 26.
Satued
AT 28.
221 54*12
22'428
N.l6 4247*0
83*02
4 10 4*08
M'554
N.21 1738*8 30*32
1
224 8*71
22623-34
2 28 38'of
22*435
165I 2*1
82*01
I
4 12 19*30
41434*68
11-550
21 20 37*3
21 2| 28*9
21 20 13*5
29*17
2
22*442
1659 II'I
81-00
2
•*545
28-02
3
22*448
17 714*1
79*98
3
4 16 4993
11539
26*87
4
2 30 52 * 72
"'454
I7I5IO-0
1723 i*6
78*96
4
4'9 5 # *5
21*533
21 2851*3
25*72
s
233 7*46
22*460
77*93
5
421 20'3|
42335*48
11*517
21 31 22*1
»4*57
6
2 35 22*24
22*466
17 3046-0
76*89
6
11*511
21 33 46*I
21 36 3*1
23*42
I
23737*05
21*471
I7 38H-3
174556-4
75-87
1
42550*59
428 5*66
11-515
22*26
23951*90
22*478
74* 81
11*508
21 38 IV2
21 40 l6*4
21*11
9
242 6*79
22*484
17 53 22*I| 73'77
18 041*6' 7173
9
43020*68
11*499
I9*96
10
24421*71
246 36*67
11-490
10
43235*65
11*491
2142 12*7
18*81
II
12*496
18 7 54-8
71*67
11
4 34 50-58
11-483
2144 2*1
17*66
12
24851*66
11*501
18 15 1-6
70*60
12
4 37 5*45
"'473
214544*6
16*51
«3
251 6*68
12-507
1822 S'O
69*54
13
4 3920*26
11*464
21 4720*2 15-36
214848*^ 14-21
14
25321*74
21*513
182856-1
68*47
H
44135*02
"'455
15
25536*83
12*518
1835437
184224-8
67-39
15 44J49-7-!
"'445
21 50 IO'7j 13*06
16
25751*95
22523
66*31
16
446 43 6
448 18*93
"•434
21 51 25*6. II-92
3
3 7*10
22*527
184859*4
■55'*3
17
11*413
215233*7,10*77
** 53 34-9, 9'«*
3 2 22*27
3 4 37*4»
3 652*71
11*531
185527*6
64*15
18
4 50 33-41
45247*86
11*411
19
21*537
19 149*2
63*06
19
11*399
21 5429*2 8-48
215516*7; 735
20
12*541
19 8 4*2
19 14 12*8
61*97
20
455 *•"
11*387
21
3 9 7 # 97
"545
60*87
21
45716*50
11*373
** 55 57*4; 6**
22
*3
3 II 2V25
3I3 38-5S
3 15 5388
22 548
22551
1920 14*7
1926 10*0
59*77
58*67
22
23
45930*70
5 1 44- 8a
11 * 360
ii«347
21 56 31*3] 5*08
215658*4 3*94
*4
11*557
N.i 9 3i 5 8*7
57*5-5
24
5 3 58*6
"333
N.21 57 18*6 2-8i
Digitized by VjOOQu
XII.
JANUARY, 1882.
13
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
9
10
11
12
»3
14
:;
18
'9
20
21
22
*3
o
1
3
3
4
i
9
10
11
12
'3
H
:i
:i
19
20
21
22
*3
*4
Bight
Yar.
in 10*.
Declination.
Yar.
in 10*.
h m 1
6 12
826
1040
1254
15 7
17 21
■9 34
52147
524 o
52614
52826
53039
53252
5 35 5
5 37 17
5 39*9
54142
5 4
86
81
67
44
11
SlJHDAY 29
1
22*318
22- 302
11*287
11*171
69 11154
16 11 '237
54 11*111
81 11*103
11*184
11*166
11 * 148
11*118
11-108
11-088
21' 068
43 54
46 6
54817
55029
5 5*41
5 54 5*
N.2157186
21 5732*1
21 57388
2157387
215731*9
215718*4
21 5658*1
21 5631*2
" 5S57'5
21 55 17*2
2154303
2153367
2152365
21 51 29*7
21 50 io*3
214856-4
21 4730*0
214557*0
2144 17*6
21 42 31*7
21 40 394
21 3840*6
. *I3 6 35'5
21-890N.11 3424*0
1
14
97
-02
96
79
•50
•90
'12
•21
•'7
n
■n
MOHDAY 30.
11*047
11*016
12*004
11*981
11*959
ii*937
21913
5 57 3*91 ,ai*866N.2J 32 61
6 1 26
336
75 !
10 8
12 18
1428
1638
1848
6 2057
f* s I
6 25 10
62725
62934
63143
Vp 1
636 o
638 8
640 16
642 24
64431
-03 21*842
•01 21*817
84 21*792
6463
648
9
5*
04
1
&
29
II
l6
37
40
*5
92
40
71
21*767
2i*74»
21*716
21*689
21*662
21*636
21 '608
21*582
*i"554
21-526
21*497
21*469
21440
21*412
21*382
*i'353
21*323
21*293
21*263
21*233
21 2942*0
21 27 11*5
21 2434*8
2121 51*9
21 19 2*8
21 ID 7*5
21 13 0*0
21 058*5
21 644*8
21 325*1
205059*4
205627*7
2052 50'0
2049 6*4
2045 16-9
2041 21*5
203720-3
2033 13*2
2029 0*4
202441*9
2020 17*7
201547*9
20 11 12*4
2i*203N.20 631*3
9
2*81
i*68
o*55
0-57
1-69
282
3 '93
5°5
617
7*7
8'37
94«
10*58
11*68
12*78
13-86
H95
16*03
17-11
1818
19*26
20*32
2138
2245
23*50
*4'55
25*60
26*63
27-67
28*70
*9'73
30*75
31*77
32*78
33*78
34 78
35 '7*
36-78
37^6
38-74
39*72
40*69
41*66
42*61
43-56
44-50
45'44
4638
47-31
Bight
Ascension.
Yar.
in io«.
Declination.
Yar.
in 10*.
h m
Tuesday 31.
64846-71
6505353
653 0*77
655 7*52
6571409
65920*47
1 26*66
3 32*67
38*48
5
744*ii
94954
7"54'79
7135984
716 470
718 957
720 15*84
72218
72422
72626
72829
7303230
732 36*61
7343972
73642*64
21*203 N.20
•172
22*141
21*110
21*079
21*048
21*017
20*985
10-95J
20*922
20*890
20*858
20-826
20*794
20*762
20*729
20*697
20*665
20*632
20-600
20-568
20*535
20*502
20*471
Wbdhmdat, FEB. 1.
7 3*45'37|»o*43«|N.i74746
20
6313
*44'7
19 56 525
195154-
194651*
1941433
1936295
19 31 IO'J
19 25 458
19 20 16
19 14 41
19 9 1
10 315
18 57 254
18 51 30*0
184529*6
18 3924*1
1835117
182658-4
182038*3
181413*4
18 743*6
18 1 9*1
N.17 54*9*9
47-3i
48 23
49' 15
50*06
50-97
52-86
5*'75
5364
545*
55-38
5625
57*12
5798
5882
59'65
60*49
6133
62*14
62* 95
6375
6456
65-36
66- 14
66-92
ij 67*68
PHASES OF THE MOON.
Jan. 3
12
'9
*5
h m
O FuUMoon • 22 58*5
C Laat Quarter - 3 47*3
% New Moon - 4 35*0
J First Quarter - 19 44*6
Jan. 7
20
h
<[ Apogee .... 16
<[ Perigee - - - - 1
Digitized by
Googk
14
JANUARY, 1882.
XIII.
MEAN TIME.
]
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L.
P.L.
$
and
Noon.
of
IIP.
of
VP.
of
IX".
of
Position.
diff
diff.
diff.
diff.
/ «
Of*
1 n
1 ff
I
<xPegasi W.
76 24 6
32 46 54
2920
77 55 59
2927
79 *7 44
3934
80 59 20
2941
a Arietis W.
2887
34 *9 29
2887
35 5* 4
2887
37 «4 39
2889
Saturn W.
31 58 23
2838
33 3* *
2841
35 5 37
2844
36 39 8
2848
Pollux E.
44 31 H
80 44 30
2923
42 59 24
2941
4' *7 57
77 35 38
2958
39 56 5*
76 1 28
2977
Regulus E.
2798
79 9 59
2805
2814
2823
2
aPegasi W.
88 35 8
1977
90 5 50
2984
91 36 23
2993
93 6 45
3000
a Arietis W.
45 * 49
2905
46 30 1
45 5» 4
2909
48 11 9
2914
49 43 10
2919
Saturn W.
44 *5 "
2874
2880
47 3? 49
2885
49 3 «7
38 19 49
2891
Jupiter W.
33 39 59
32 28 6
68 13 20
2848
35 13 *4
2855
36 46 41
2862
2868
Pollux E.
3100
30 59 57
66 40 15
3132
29 32 27
3168
28 s 40
3209
Regulus E.
2864
2871
6$ 7 '9
2880
63 34 34
2888
3
a Arietis W.
57 21 4i
*945
58 53 3
58 16 29
2950
60 24 18
2957
61 55 25
2962
Saturn W.
56 44 38
2922
2928
59 48 12
*935
61 19 46
2941
Jupiter W.
46 3 24
2901
47 35 42
2908
49 7 5i
2915
50 39 51
2921
Aldebaran W.
24 23 8
30x3
*5 53 5
3007
27 23 9
3004
28 55 17
51 18 51
3003
Regulus E.
55 53 * 6
2929
54 *i 44
2937
52 so 12
2946
2954
4
a Arietis W.
69 29 14
68 55 41
2991
70 59 38
2997
72 29 55
3003
74 4
3009,
Saturn W.
»973
70 26 28
2978
71 57 8
2985
73 *7 4o
2991 1
Jupiter W.
58 17 48
*954
59 48 59
2960
61 20 2
2966
62 50 57
2973 '
Aldebaran W.
36 23 58
3008
37 54 1
301 1
39 H
3014
4o 53 55
3°i8 (
Regulus E.
43 44 45
2997
42 14 28
3006
40 44 23
3016
39 *4 3°
3025
Spica E.
97 *9 59
»955
95 58 50
2961
94 27 49
2967
92 56 55
2974
5
a Arietis W.
81 29 5
3036
82 58 33
3042
84 27 54
3047
85 57 8
3052}
Saturn W.
80 58 29
3020
82 28 17
3025
83 57 59
3030
85 *7 34
3036,
Jupiter W.
70 *3 37
3002
7i 53 47
3008
73 *3 50
3014
74 53 46
3019,
Aldebaran W.
48 22 22
3037
49 5i 49
3041
51 21 11
304S
52 50 28
3049
Regulus E.
31 48 10
85 24 25
3079
30 19 35
83 54 17
3092
28 51 16
3106
27 23 14
3122
Spica E.
3004
3010
82 24 16
3015
80 54 22
3020
6
Saturn W.
9* 53 54
3061
94 22 52
83 51 11
3065
95 5i 45
85 20 25
3069
97 20 33
86 49 34
3073
Jupiter W.
82 21 52
3043
3<>47
3051
3056
Aldebaran W.
60 15 40
3069
61 44 28
3072
63 13 12
3075
64 41 52
3078
Mars W.
37 4* 36
2977
39 »3 17
2978
4o 43 57
2980
42 14 35
2981
Spica E.
73 26 25
3044
7i 57 7
3048
70 27 54
3052
68 58 46
3057
7
Aldebaran W.
72 4 17
3092
73 3* 3 6
3094
75 53
3096
76 29 8
54 18 43
3097 J
Mars W.
49 47 **
2987
51 17 51
2989
52 48 17
2989
2991
Pollux W.
3' 8 50
61 34 15
3329
32 32 28
60 s 3 2
3312
33 56 26
58 36 5*
3296
35 20 42
3282"
Spica E.
3073
3075
3<>77
57 8 14
3079
8
Aldebaran W.
83 49 50
61 50 38
3101
8$ 18 8
3x01
86 46 16
3101
88 14 25
3100
Mars W.
2993
63 21
2992
64 51 23
2992
66 21 46
2991
Pollux W.
42 25 3 1
3232
48 17 8
93 46 14
3225
45 16 43
3216
46 42 33
3209
Spica E.
49 45 3 6
3085
3084
46 48 30
92 17 58
3085
45 20 11
3084
An tares E.
95 14 3o
3095
3<>95
3095
90 49 42
3093
Sun E.
135 30 50
3486
134 10 10
3486
132 49 30
3484
131 28 48
3483
9
Mars W.
73 54 6
2981
75 H 4*
2979
76 55 21
2976
78 26 4
2972
Pollux W.
53 53 42
3176
S5 20 20
3169
56 47 6
3162
58 14
3156
Spica E.
37 57 30
3076
36 28 si
3073
35 9 3070
33 3 1 *3 3° 6 7
Digitized by
Googk
XIV.
JANUARY
, 1882.
IS
! MEAN TIME.
LUNAR DISTANCES.
Start Name
P.L.
P.L.
P.L.
P.L.
i
and
Midnight.
of
XV*.
of
XVIIl*.
of
XXP.
of
9
Position.
diff.
diff.
dift
ditX
1
Of*
O §
/ *
9 n
1
a Pegasi W.
82 30 47 a 9 47
84 2 6
»954
85 33 16
2961
87 4 17
2969
a Arietis W.
38 57 12
2891
40 29 42
2894
42 2 8
2897
43 34 3 1
2901
Saturn W.
38 12 33 2853
39 45 5*
2858
4i 19 5
2863
42 52 12
2868
Pollux £.
38 26 II 2998
36 55 56
3020
35 26 8
3045
33 5$ 5i
69 46 37
3071
Regulus E.
74 27 30 2830
72 53 41
2839
71 20 4
2847
2855
*
a Pegasi W.
94 3 6 58
3008
96 7 1
3016
97 3 6 54
3025
99 6 36
3034
1 at Arietis W.
Si 15 5
2923
52 46 54
2928
54 18 37
*934
55 50 12
2939
\ Saturn W.
50 35 57
2898
52 8 19
2904
53 4° 33
2909
55 12 40
2916
Jupiter W.
39 52 49
2874
41 25 41
2881
42 58 24
2888
44 3° 58
2894
i
Pollux E.
26 39 42
3*57
25 14 40
33x2
23 50 42
58 57 22
3375
22 27 57
345i
Begulus E.
62 2
2896
60 29 36
2904
2912
57 25 19
2920
1 3
a Arietis W.
63 26 25
2968
64 57 18
*974
66 28 4
2979
67 58 43
2985
1
Saturn W.
62 51 13
»947
64 22 32
*954
65 53 43
2961
67 24 45
2966
1
j
Japiter W.
52 11 43 2928
30 23 26 300a
53 43 27
2935
55 15 *
2941
56 46 29
*947
Aldebaran W.
31 53 36
3003
33 23 45
46 45 51
3004
34 53 53
3006
Begulus E.
49 47 40. ^962
48 16 40
2971
2979
45 15 i*
2989
4
a Arietis W.
75 30 6 3014
77 1
3019
78 29 50
77 58 31
3026
79 59 31
79 *8 33
68 53 20
3031
Saturn W.
74 5« 4 *997
76 28 21
3002
3009
3014
Jupiter W.
64 21 44 2978
65 52 24
2985
67 22 56
2991
2997
Aldebaran W.
42 23 45! 3021
43 53 3i
3025
45 *3 13
34 46 *
88 25 3
3029
46 52 50
3033
Begulus E.
37 44 48' 303s
36 15 19
89 55 33
3045
3056
33 16 59
86 54 40
3068
Spica E.
91 26 10 2981
2986
S992
2998
5
a Arietis W.
87 26 17*3057
SS S I I9
3062
00 24 15
89 55 40
3068
9i 53 4
3072
Saturn W.
86 57 2*3041
88 26 24
3046
3051
91 24 50
80 52 27
3056
1
Jupiter W.
76 23 35:30*3
77 53 19
3029
79 22 56
3034
3039
1
Aldebaran W.
54 19 40,3053
55 48 47
3057
57 17 49
3061
58 46 47
3065
Regulus E.
*5 55 3i 3138
24 28 7
3^57
23 1 6
70 25 17
3*79
21 34 32
3204
Spica E.
79 H 34 30*5
77 54 53
3029
3035
74 55 48
3040
6
Saturn W.
88 18 38 3060
100 17 54
3080
101 46 28
3084
103 14 57
3087
Jupiter W.
89 47 37
3063
9c 16 32
69 7 29
3066
92 45 23
3069
Aldebaran W.
66 10 28' 3082
67 39
3084
3087
7° 35 54
3089
Mars W.
43 45 12 2982
45 15 47
2983
46 46 21
2985
48 16 52
2986
Spica E.
67 29 44
3060
66 45
3064
64 31 51
3067
63 3 1
3070
7
Aldebaran W.
77 57 21
3099
79 25 3 2
3100
80 53 4*
3101
82 21 51
3x01
Mars W.
55 49 7
2991
57 19 3i
2992
58 49 53
2992
60 20 16
2993
i
Pollux W.
36 45 14
3270
38 10
3259
39 34 5?
52 42 36
3249
41 10
324X
|
Spica E.
55 39 39
3082
54 11 7
3083
3083
5i 14 5
3084
8
Aldebaran W.
89 42 35
3099
91 10 46
3098
92 38 58
3096
94 7 13
3093'
Mars W.
67 52 10
48 8 31
2989
09 22 36
2988
70 53 4
2986
72 23 34
2984
Pollux W.
3203
49 34 36
3196
5i ° 50
3189
52 27 12
3183
Spica E.
43 5i 4i
89 21 24
3083
42 23 11
3082
40 54 39
86 24 46
127 26 34
3081
39 26 6
84 56 23
126 5 45
3078
Antares E.
3093
87 53 6
128 47 21
309a
3089
3087
Sun E.
130 8 5
3482
348o
3478
3474
9
Mars W.
79 56 52
2969
81 27 44
61 8 12
2965
82 58 41
2959
84 *9 45
2954
Pollux W.
59 4« *
3*49
3142
62 35 31
3»34
64 2 59
3126
Spica . E.
32 2 33 3064 1 30 33 39 3060 29 4 40 3055 27 35 35 3051
Digitized by
A
i6
JANUARY
, 1882.
XV.
MEAN TIME.
LDNAE DISTANCI
ss.
1
Start Name
and
Position.
Noon.
PX.
of
diC
HI*.
PX.
of
dur.
VP.
PX.
of
diff.
IX".
PX.
of
dlff.
9
An tares
Sun
E.
E.
01*
83 27 58
124 44 52
3085
347»
Of*
81 59 30
123 23 57
3082
3468
Of*
80 30 59
122 2 57
3078
3464
/ #
79 2 23
120 41 53
3<>75
34*>
IO
Man
Pollux
Regulus
An tares
Suk
W.
w.
w.
E.
E.
86 55
65 30 37
28 28 39
71 38 9
113 55 10
*949
31x9
3**3
3051
343*
87 32 11
66 58 24
29 56 21
70 8 59
112 33 30
*943
3111
3109
3045
34*5
is I 35
68 20 20
31 24 20
68 39 42
in 11 42
*937
3102
3095
3038
34*7
90*35 7
69 54 27
32 52 36
07 10 17
109 49 45
2931
3093
3082
3031
34<>9
ii
Pollux
Regulus
Antares
Sun
W.
W.
E.
E.
77 17
40 17
5940
102 57
5»
45
S3
33
3©4S
3010
2991
336a
7847 8
4i 47 33
58 10 29
101 34 33
3<>34
3007
2981
335*
80 16 38
43 17 37
56 39 53
100 11 21
3023
*994
2972
334o
81 46 22
44 47 57
5 i 9 I
98 47 56
30x2
2981
2962
33*9
12
Pollux
Regulus
Antares
Sun
W.
W.
E.
E.
8918
52 23
47 3i
9i 47
4 a
4 f
48
16
*95°
2913
2907
3263
90 49 57
53 55 48
45 59 38
90 22 21
*937
2898
2895
3*4*
92 21 29
55 28 10
44 *7 "
88 57 9
2923
2883
2883
3*34
93 53 *9
57 ° 50
4* 54 3i
87 31 40
2909
2868
2870
32x8
>3
Regulus
Antares
Sun
W.
E.
E.
6449
1
28
2788
2806
3x36
66 23 58
33 3* 4>
78 52 2
*77»
*794
3118
67 59 4
3i 5» 5
77 *4 H
*7S3
2782
3100
69 34 33
30 2j 13
75 56 4
2736
2770
3082
«4
Regulus
Spica
Sun
W.
W.
E.
77 37
nil
53
30
33
2646
2635
2986
79 15 4$
25 13 38
66 59 3
2627
2615
2967
80 54 5
20 52 12
65 28 9
2608
*595
*947
82 32 49
28 31 14
63 56 50
2589
2576
2927
*5
Regulus
Spica
Sun
W.
E.
9053
3653
56 13
1
5*
*493
2478
2827
92 34 26
38 34 50
54 39 59
*474
2458
2806
94 16 16
40 17 2
53 5 39
*455
*43«
2786
95 S* 3*
4i 59 4*
5i 30 53
2436
24x9
2767
16
Regulus
Spica
Sun
W.
W.
E.
104 36
50 39
43 30
38
53
37
*343
*3*4
2671
106 21 35
52 25 17
41 53 18
*3*5
2306
2653
108 6 58
54 " 8
40 15 34
2308
2287
2635
109 52 46
5< 57 26
38 37 26
2290
2270
26x8
*7
Spica
Antares
Sun
W.
W.
E.
6455
*9 53
30 21
21
48
>5
2185
2295
*543
66 44 11
« 39 55
28 41 2
2170
2263
2532
68 33 24
23 26 50
27 33
2155
**35
2522
70 23
25 14 25
25 19 50
2x40
2209
2513
20
Suk
a Arietis
Saturn
W.
E.
E.
12 21
83 27
84 3
»3
3
5*
2500
2019
2008
14 2 27
81 33 59
82 10 31
•454
202 X
2009
'5 44 45
79 40 SI
80 17 11
2422
2023
20x1
17 27 48
77 47 58
78 «3 54
2401
2026
20x4
21
Sun
a Arietis
Saturn
Jupiter
W.
E.
E.
E.
26 7
68 24
68 58
79 *7
59
40
59
11
2368
2053
2040
2028
27 52 20
66 32 29
67 6 27
77 34 «o
2369
206 X
2047
203s
29 36 39
64 40 30
65 14 5
75 4» 4i
*373
2070
2055
2043
31 20 52
02 48 44
63 21 57
73 49 14
2377
2079
2064
2051
22
Sun W.
a Arietis E.
Saturn E.
Jupiter E.
Aldebaran E.
39 59 45
53 34 3
54 5
64 30 29
86 30 39
2418
2140
2118
2102
2103
41 42 54
5* 44 4
52 14 28
62 39 33
84 39 45
2429
**54
2131
2114
2115
43 *S 4$
49 54 **
50 z± 17
60 4* 55
82 49 8
2440
2169
*»45
2126
2127
45 8 26
48 5 14
48 34 26
58 58 36
80 58 50
*453
2x86
2x59
2139
2x39
23
Sun
a. Arietis
W.
E.
53 36
39 5
P
2522
2282
55 17 4*
37 19 12
2536
2304
56 58 ?
35 33 I*
*55*
2329
58 38 6
3348 1
2569
*355
Digitized by
Google
XFI.
JANUARY, 1882.
MEAN TIME.
LUNAR DISTANCES.
i
Star'sNama
and
Position.
Midnight.
P.L.
of
dtff.
XV*.
P.L.
of
dift
xvni\
P.L.
of
diff.
XXP.
P.I
of
difl
9
Antares
Sun
E.
E.
# «
77 33 43
119 20 44
3071
3455
© # #
76 4 58
117 59 30
3067
3450
t »
74 36 8
116 38 10
3061
3445
# n
73 7 11
115 16 44
305:
34S J
10
Msrs
PoUux
Regains
Antares
Sum
W.
W.
W.
E.
E.
92 6 47
71 22 45
34 " 7
6< 40 43
108 27 39
2914
3084
3070
3024
3401
93 38 36
72 51 14
35 49 53
64 11
107 5 23
2916
3075
3<>57
3017
339*
95 10 34
74 19 54
37 18 55
62 41 8
105 42 57
2908
3065
3<>45
3009
3383
96 42 43
75 48 47
38 48 12
61 zi 6
104 20 21
2904
3<>5 <
3031
3oo<
337'
11
Pollux
Regains
Antares
Suh
W.
W.
E.
E.
83 x6 20
46 18 33
53 38 5
97 *4 18
3000
2969
2952
3316
84 46 33
47 49 *5
52 6 52
96 25
2989
*955
2941
3304
86 17
49 *° 34
50 35 25
94 36 18
2976
2941
2930
3290
87 47 43
50 52 1
49 3 44
93 11 55
2964
292;
291^
3*7<
12
Pollux
Regains
Antares
Sum
W.
W.
E.
E.
95 25 26
58 33 50
41 21 34
86 5 52
2895
2852
2857
3202
96 57 51
00 7 10
39 48 20
84 39 45
2881
2837
2845
3x86
98 30 34
61 40 50
38 H 50
83 13 19
2866
2821
2832
3x70
100 3 36
6j 14 51
56 41 4
81 46 34
2851
2804
281c
3*5:
'3
Regains
Sun
W.
E.
E.
71 10 25
28 48 6
74 *7 3*
2718
2758
3063
72 46 41
27 12 43
72 58 37
270 X
2748
3<>45
74 23 20
*5 37 7
71 29 20
2682
2740
3025
76 24
24 1 20
69 59 38
2661
273:
3oo(
«4
Regains
Spies
Suh
W.
W.
E.
84 " 59
30 10 42
62 25 6
2570
2556
2907
85 5i 35
31 50 37
r 60 52 56
255X
*537
2887
87 3i 38
33 3° 59
59 20 20
2532
25X7
2867
89 12 7
35 11 49
57 47 19
25x2
*49!
284;
»5
Regains
Spies
Sxnr
W.
W.
E.
97 4i 16
43 42 49
49 55 4*
2417
2400
2747
99 24 26
45 26 24
48 20 4
2398
2381
2728
101 8 4
47 10 26
46 44 1
2380
2362
2708
102 52 7
48 54 56
45 7 3i
236)
*34:
26*
16
Regains
Spies
Sun
W.
W.
E.
in 39
57 44 10
36 58 55
2273
2252
2601
113 25 39
59 31 20
35 20 2
2257
2235
2585
115 12 42
61 18 55
33 4° 46
2242
2218
2571
117 8
63 6 56
32 1 11
222;
220:
25S<
17
Spies
Antares
Sun
W.
W.
E.
72 12 58
27 2 39
*3 38 55
2126
2x87
2507
74 3 17
28 51 26
21 57 52
2x12
2x67
2504
75 53 58
30 40 43
20 16 45
2099
2148
2505
77 44 58
32 30 29
18 35 39
208
2X3
2 5 I
20
Son
a Arietis
Saturn
W.
E.
E.
19 11 21
75 55 4
76 3° 4*
2387
2030
2018
20 55 15
74 2 16
74 37 35
*377
2034
2022
22 39 23
7* 9 35
7* 44 35
237X
2039
2027
24 23 39
70 17 2
70 51 42
236
204
203
21
Sun
a Arietis
Saturn
Jupiter
W.
E.
E.
E.
33 4 59
60 57 13
61 30 2
71 56 59
2383
2090
2073
2060
34 48 58
59 5 59
59 38 22
7° 4 59
239X
2x01
2083
2070
36 32 46
57 15 1
57 46 57
68 13 13
2399
2113
2094
2080
38 16 22
55 M ^2
55 55 49
66 21 43
24c
2X2
2IC
205
22
Sun W.
a Arietis £.
Saturn E.
Jupiter E.
Aldebarsn R
46 50 46
46 16 25
46 44 57
57 8 36
79 8 51
2465
2203
2174
2x52
2153
48 32 48
44 28 1
44 55 50
55 18 57
77 r 9 12
*479
2221
2x90
2x66
2x67
50 14 31
42 40 5
43 7 7
53 29 39
75 29 54
2492
2240
2206
2180
2x81
5i 55 55
40 52 37
41 18 48
51 40 42
73 40 57
2 5 <
22<
221
214
2X4
l"
Sun
a Arietis
W.
E.
60 17 44
32 3 21
2584
2383
61 57 1
30 19 22
2601
2414
65 35 55
28 36 7
2618
2448
65 14 26 26;
26 53 40' 24
. 2
(nautical almanac, 1882.)
Digitized by VjOOQ IC
i8
JANUARY, 1882.
XVII.
MEAN TIME.
£
LUNAR DISTANCES.
L.
f
O 1 H
1 n
1 *
§ n
ff.
2 3
Saturn
E.
39 30 54
2241
37 43 *7
48 3 55
2259
35 56 27
2278
34 9 55
44 28 39
2298
Jupiter
E.
49 5* 7
2210
2225
46 16 5
2241
2257
Aldebaran E.
71 52 21
2210
70 4 8
2225
68 16 18
2240
66 28 50
2256
Mars
E.
90 25 20
2167
88 36 3
2182
86 47 9
2198
84 58 39
2213
24
Sun
W.
66 52 34
2651
68 30 20
2669
70 7 42
2686
71 44 41
2703
a Pegasi
W.
24 16 55
3249
25 42 6
3151
27 9 14
3074
28 37 55
3013
Jupiter
E.
35 37 30
2341
33 52 3 1
*359
32 7 58
*377
30 23 51
2396
Aldebaran E.
57 37 31
2339
55 52 29
2356
54 7 5i
*375
52 23 40
2392
Mars
E.
76 2 2
2296
74 15 56
2312
72 30 14
2330
-70 44 58
2346
25
Sun
W.
79 43 47
36 15 57
2790
81 18 28
2808
82 52 45
2825
84 26 40
2842
a Pegasi
W.
2852
37 49 J 7
42 7 28
2838
39 22 56
2828
40 56 48
2820
Aldebaran E.
43 49 5
2483
2502
40 26 18
2522
38 45 35)*54i
Mars
E.
62 4 45
*433
60 21 57
2450
58 39 34
2467
56 57 35.2485
81 40 2562
Pollux
E.
86 2 20
2512
84 21 24
2528
82 40 50
*545
26
Sun
W.
92 10 44
2927
93 42 29
*944
95 13 52
2959
96 44 56: 2976
a Pegasi
W.
48 47 32
2816
50 21 39
2819
5i 55 43
2824
53 29 401*8*9
Mars
E.
48 33 45
2572
46 54 11
2589
45 '5 1
2607
43 36 15,2624
Pollux
E.
72 45 32
2645
71 7 38
2662
69 30 7
2678
67 52 58.2695
27
Sun
W.
104 15 18
3053
105 44 25
3067
107 13 15
3081
108 41 481 3096
a Pegasi
W.
61 17 29
a86 3
62 50 35
2872
64 23 30
32 16
2880
65 5*> 15*2889
Mars
E.
35 28 20
2713
33 5i 58
58 17 46
94 48 18
2732
2751
30 40 28J2771
Pollux
E.
59 52 44
*777
*795
56 43 11
2811
55 8 57 *8*8
Regulus *
E.
96 24 54
2703
2716
93 " 59
2729
91 35 58 2741
28
Sun
W.
116 17. 3162
117 27 12
75 8 49
3'75
118 53 51
3188
120 20 15
3200
a Pegasi
W.
73 37 "2933
2942
76 40 15
2950
78 11 30
2959
a Arietis
W.
29 59 8 2920
28 39 33*2864
31 31 2
2919
33 2 57
2919
34 34 52
33 18 28
2921
Saturn
w.
30 12 38
2869
31 45 36
2874
2881
Pollux
E.
47 23 I7l 2 9i5
45 5i 17
2933
44 19 4o
2952
• 42 48 27
2972
Regulus
E.
83 39 54
2801
82 5 28
2812
80 31 16
2824
78 57 19
2835
29
Sun
W.
127 28 45
3*57
128 53 47
3267
130 18 37
88 45 3
3278
131 43 14
3289
a Pegasi
W.
85 44 58
3004
87 15 6
3013
3021
90 14 50
3030
a Arietis
W.
42 13 32
2939
43 45 1
*945
45 16 23
2949
46 47 40
*955
Saturn
W.
41 42
2915
42 32 42
2921
44 4 34
2928
45 36 17
2935
Jupiter
W.
30 11 34
2904
31 43 48
2911
33 15 53
2918
34 47 49
30 55 18
66 33 40
2926
Pollux
E.
35 18 54
3086
33 50 27
31x4
32 22 35
3»44
3»77
Regulus
E.
71 10 57
2886
69 38 20
2895
68 5 54
2904
2913
30
a Arietis
W.
54 22 23
2981
55 53
2986
57 23 3°
2992
58 53 53
2996
Saturn
Jupiter
W.
53 12 43
42 25 5
2969
2962
54 43 35
43 55 6
*974
2969
56 14 20
45 26 58
2981
*975
57 44 57
46 57 42
2986
2981
Regulus
E.
58 55 18
2955
57 24 9
2964
55 53 «
2972
54 22 23
2979
31
a Arietis
W.
66 24 18
3021
67 54 5
3026
69 23 46
68 15 57
3030
70 53 22
3<>34
Saturn
W.
65 16 14
3014
66 46 9
3020
3024
69 45 40 3029
58 59 3 30* 6
Jupiter
W.
54 29 26
33 18 58
46 50 44
301 1
55 59 25
3017
57 29 17
3022
Aldebaran W.
3040
34 48 21
3041
36 17 43
3<>43
37 47 3 3044
Regulus
E.
3017
45 20 52
3025
43 55 10
3032
42 21 3713040
Spica
E.
IOO 37 22'298i
99 6 45
2986
97 36 15 2991 9b 5 5**997j
Digitized by
Googk
XVIII.
JANUARY
rf&8z.
Ij
MEAN TIME.
LUNAR DISTANCES.
Star's Name
PX.
P.L.
P.L.
P.L.
*
and
Midnight*
of
XV*
of
XVEtP.
of
XXI\
of
Position.
diff.
diff.
diff.
diff.
1
1 9
1 ♦
/ *
O 1 H
*3
Saturn
E.
32 23 53
42 41 36
2319
30 38 22
2342
28 53 23
2366
27 8 59
2392
Jupiter
E.
"73
4° 54 57
62 55 6
2290
39 8 43
61 8 50
2307
37 " 54
2324
Aldebaran E.
64 41 46
227a
2289
2305
59 " 58
2322
Mars
E.
83 10 31
2230
81 22 48
224s
79 35 *8
2262
77 48 33
2279
z4
SUN
W.
73 " 17
2721
74 57 *9
2738
76 33 18
2756
78 844
2773
aPegasi
W.
30 7 52
2965
31 38 49
2926
33 1° 35
2895
34 43 *
2871
Jupiter
E.
28 40 10
2415
26 56 56
*434
25 14 9
*454
23 31 51
*474
Aldebaran £.
50 39 53
2410
48 56 32
2428
47 '3 37
65 31 36
2446
45 31 8
2465
Mars
E.
69 5
2364
67 15 38
2381
2398
63 47 S 8
2415
ZS Sun ,
W.
86 13
2860
87 33 *3
2877
89 6 12
2894
90 38 39
2911
aPegasi
W.
42 30 50
2815
44 4 58
2813
45 39 9
33 46 11
2812
47 '3 «
2813
Aldebaran E.
37 5 19
55 16 1
2561
35 *5 3 1
2582
2602
32 7 19
2624
Mars
E.
2502
53 34 50
2520
5i 54 5
»S37
50 13 43
*554
Pollux
E.
79 2 ° 53
2578
77 41 28
*595
76 2 27
2612
*
74 *3 48
2629
26 Sun
W.
98 15 -39
2991
99 46 3
3007
101 16 7
58 10 48
3023
102 45 51
3037
a Pegasi
W.
55 3 3°
2835
56 37 13
2841
2848
59 44 13
2856
Mars
E.
4J 57 5*
2641
40 19 53
64 39 46
2659
38 42 18
63 3 44
2677
ej 1
2695
Pollux
K
66 16 11
2711
2728
«744
2761
*7
Sun
W.
no 10 3
67 28 48
3110
in 38 1
3*23
"3 5 43
3137
114 33 8
3150
a Pegasi
W.
2897
69 1 n
2905
70 33 23
25 56 33
50 28 26
2915
72 5 23
2924
Mars .
E.
29 5 22
2792
27 30 43
2814
2838
24 22 54
2863
Pollux
E.
53 35 5
2844
52 1 34
2862
2879
48 55 4o
85 i4 35
2897
Begulus
E.
90 13
2753
88 24 44
2766
86 49 32
2778
2790
28
Sun
W.
121 46 24
3211
123 12 20
3223
124 38 2
3*35
126 3 30
3246
a Pegasi
W.
79 4? 34
36 6 44
2968
81 13 27
37 38 33
2977
82 44 8
2986
84 14 38
2994
a Arietis
W.
2924
2927
39 10 18
2931
40 41 57
*935
Saturn
W.
34 5' "
2887
36 23 47
2894
37 5 6 H
38 17 20
2901
39 28 32
36 47 53
72 43 48
2907
Pollux
E.
41 17 39
2992
39 47 * 6
3014
3037
3060
Begulus
E.
77 *3 36
2846
75 50 7
2856
74 16 51
2866
2875
*9
Sun
W.
133 7 38
3299
134 31 51
3309
*35 55 5*
33»9
137 19 42
3329
aPegasi
aArietis
W.
91 44 26
3038
93 13 5*
3047
94 43 7
3056
96 12 11
3065
W.
48 18 50
2960
49 49 53
48 39 17
2965
51 20 50
2970
52 51 40
2976
Saturn
W.
47 7 5i
2942
2949
50 10 34
2956
51 41 42
40 S3 56
2962
Jupiter
W.
36. 10 34
29 28 42
«933
37 5i "
28 2 50
2941
39 22 38
26 37 47
2948
«9SS
Pollux
E/
3214
3256
3304
25 i| 4o
60 26 37
3358
Begulus
E.
65 * 38
2921
63 29 46
2931
61 58 6
2939
*947
30
a Arietis
W.
60 24 11
3001
61 54 22
3006'
63 24 27
3012
64 54 25
63 46 12
3016
Saturn
w.
48 28 18
2993
60 45 49
49 58 46
2998
62 16 4
51 29 6
3004
3009
Jupiter
W.
2988
2994
3000
52 59 19
3005
Begulus
E.
5* 5* 44
2986
51 21 14
2995
49 5° 55
3002
48 *o 45
3009
3i
a Arietis
W.
72 22 52
3038
73 5* 17
3043
75 *i 37
3047
76 50 52
3051
Saturn
W.
71 15 17
3034
72 44 47
3038
74 14 13
3043
75 43 33
3047
Jupiter
W.
60 28 43
3031
61 58 17
40 45 38
3036
63 27 45
3041
64 57 7
3045
Aldebaran W.
39 16 22
3046
3048
42 14 52
3051
43 44 *
3052
Begulus
E.
40 52 13
3<>47
39 " 59
3055
37 53 54
3064
36 25 3072
Spfca
E.
94 35 34 3001
93 5 22 3006 91 35 17' 3010 90 5 17 3014
Digitized by '
C 2
o •
20
FEBRUARY, 1882.
1.
AT APPARENT NOON.
t
4
1
1
1
THE SUN'S
Sidereal
Time of
the Semi-
diameter
pasting
the
Meridian.*
Equation of
Tin*,
tok*
addtd
to
Appartnt
Var.
in
1 hoot
Apparent
Eight Ascension.
Var.
in
1 hoar.
Apparent
Declination.
Var.
in
1 hoar.
Wed.
Thur.
Frid.
1
z
3
hut
21 15*43
21 4 IO/25
21 8 22*24
1
10*176
10*141
10*108
# *
S. 17 2 I2'4
16 44 55*1
l6 27 20'2
*
42*85
43-59
44*3*
m s
I 8*23
I 8*12
I 8-00
m »
13 5I^O
13 58-64
14 5-06
s
0*319
0*285
0-250
Sat
Sun.
Mon.
4
I
21 12 24'4I
21 l6 25*77
21 20 26*31
10*074
10*040
10*006
l6 9 28*3
15 51 19*7
15,32 548
45*oi
45*7o
46-37
I 7*89
i 7-66
14 10*66
H i5'45
14 1943
0*216
0*183
0*149
Tues.
Wed.
Thur.
I
9
21 2A 26-06
21 25 25*02
21 32 23*20
9*973
9*940
9*908
15 14 13-9
H 55 175
14 36 6*0
47*03
47*66
48* 29
1 7*55
x 7'43
1 7-32
14 22*62
14 25*01
14 26*63
o*ii6
0*084
0*052
Frid.
Sat.
Sun.
10
11
12
21 36 20'6l
21 40 I7-27
21 44 I3-I7
9*876
9-«4S
9*814
14 16 398
13 56 59*3
13 37 4*9
48*89
49*48
50-05
1 7*21
1 7*10
1 6*99
14 2749
14 2759
14 26-94
0*020
0*011
0*042
Mon.
Tues.
Wed.
13
14
15
2i 48 8-33
21 52 2-77
21 55 5649
9*783
9*753
9-7*3
13 16 57*0
12 56 36-1
12 36 2*6
50*60
51-13
51-65
1 6*88
: m
14 25-56
14 *3'45
14 20*62
0*073
0W03
0-133
Thur.
Frid.
Sat.
16
18
21 59 49-40
22 3 41*78
22 7 33-37
9*694
9-664
9635
12 15 16*9
11 54 19-5
11 33 109
52*15
52*63
53*o8
1 6-36
14 17*07
14 12*82
14 7*87
0-163
0*192
0-220
8P?
19
so
21
22 II 24*28
22 15 14*50
22 19 4*05
9*607
9*579
9'55i
11 11 515
10 50 21*7
10 28 41*9
53*5*
53*95
54*36
1 €26
1 6*17
1 6-08
14 2-24
13 5592
13 48-94
0*249
0-277
o*3°4
Wed.
Thur.
Frid.
22
23
*4
22 22 52-95
22 26 41*20
22 36 28*82
9*5*4
9*497
9 '47*
10 6 52*5
9 44 54-o
9 22 46*8
54*75
55*12
55*47
1 5 99
1 5 90
1 581
13 41-31
13 33*03
13 24- 12
0*331
0*358
0*384
.Sat.
l Sun.
Mon.
Tues.
'I
20
27
28
22 34 15*84
22 38 2*26
22 41 48*10
22 45 3339
9*447
9-422
9*399
9*376
9 ° 3*'3
8 38 7-8
8 15 36-8
7 5* 5^7
56-14
56-44
56-73
1 5-72
1 5-64
1 556
1 5-48
13 14-61
13 4-50
12 5382
12 42*59
0-409
0*433
0-456
0-479
Wed.
29
22 49 l8'I4
9*354
S. 7 30 13*9
57*oo
1 5-41
12 30-82
0-501
*Mean Time of the Semidian
leter passing may be found by subtract
ing 0* * 1 8 from the Sidereal Time.
Digitized by
f
II.
FEBRUARY, 1882.
AT MEAN NOON.
i
1
v.
o
1
THE SUN'S
Apparent
Bight Ascension.
Apparent
Declination.
Semi-
diameter.*
Equation of
Time,
to be
eubtracted
from
Mean
Time.
Sidereal Time.
Wed.
Hinr.
Frid.
Sat.
*> —
Mon.
Toes.
Wed.
Thur.
Frid.
Set.
Mon.
Tues.
Wed.
Thur.
Frid.
Set.
Sun.
Mon.
Toes.
Wed.
Thur.
Frid.
Set
Sun.
Mon.
Tues.
Wed.
10
11
12
13
14
*5
16
i:
so
SI
IX
S3
*4
'J
II
*9
h m s
21 O IV08
21 4 18*89
21 8 19*87
21 12 22*0
21 l6 23*3
21 20 23*92
21 24 23*67
21 28 22*63
21 32 20*82
21 36 18*23
21 40 14*89
21 44 10*80
21 48 5*98
21 52 0*43
21 55 54* 16
21 59 47*i8
22 3 39*49
22 7 31*11
22 11 22*03
22 15 12*27
22 19 1*85
22 22 50*77
22 26 39*05
22 30 26*71
22 34 13* 75
22 38 0'20
22 41 46*08
22 45 31*40
22 49 16*19
o 1
S.17 2 22*3
16 45 5*2
l6 27 30*6
l6 9 39*0
15 51 30*6
15 33 5*8
15 14 25*2
14 55 290
14 36 17*7
14 16 51*6
13 57 11*2
13 37 i6' 9
13 17 92
12 56 48*4
12 36 14*9
12 15 29*3
11 54 32*0
11 33 23*4
11 12 4*0
10 50 34*2
" 54 '4
10 28
10 7 5*0
9 45 6*5
9 22 59*2
o 436
38 20*1
8 15 49-0
7 53 108
S. 7 30 25*8
16 15*8
16 15*7
16 15*5
16 15*3
16 15-2
16 15*0
16 14*8
16 14*6
16 14*5
16 14*3
16 14*1
16 13*9
16 13*7
16 13*5
16 13*3
16 13*1
l6 12*8
16 12*6
16 12*4
l6 12*2
l6 12*0
16 11*8
16 n*5
16 11*3
16 ii'i
16 io*9
16 10-6
16 10*4
16 10*2
5858
5*01
4 10*61
4 i5-4o
4 19*39
4 22-59
4 H'99
4 26*62
14 27*49
[4 27*59
14 26*95
4 *5'57
4 *3'47
4 20*65
4 17'"
12*87
4 7'93
4 2-30
3 55*99
3 49 # oi
3 4I-38
3 33'"
3 24*21
3 H'7o
3 4'6o
2 53*92
2 42*69
12 30*92
20 46 21*75
20 50 18*31
20 54 14-87
20 58 11*42
21 2 7*98
21 6 453
21 10 1*08
21 13 5764
21 17 5419
21 21 50*75
21 25 47*30
21 29 43*86
21 33 40*41
21 37 36*97
21 41 33* 5 z
21 45 30*07
21 49 26*6*
21 53 23*18
21 57 19-73
22 1 16-29
22 5 12*84
zz 9 9-39
22 13 5*95
22 17 2*50
22 20 59*05
22 24 55 '61
22 28 52*16
22 32 48*71
22 36 45*27
* The 8emidiameter for Apparent Noon may be assumed the same as that for Mean Noon.
Digitized by
G
O
22
FEBRUARY, 1882.
in.
MEAN TIME.
o
a
I
O
P
THE SUN'S
Apparent
Longitude.
Noon,
Noon,
Logarithm
of the
Radius
Vector
oftheEarth.
TVboii.
Transit
ofthe
First Point
of
Aries.
THE MOON'S
Semidiameter.
Noon.
Midnight
Horizontal Parallax.
Noon.
Midnight,
312 35 13*4 0*00
S.o'07
O'll
313 36 3
3f4 36 51 '6
3I |
316 3
317 39
37 38-8
7 38-
8 24'
8
9'7
ro
11
12
13
16
:i
ao
21
22
»4
2
*7
28
29
318 39 5V
319 40 36'
9 99373*4
'993799'
'9938688
0-149-9939406
0*15
0-13
-9940146.:
•9940910
0-09
8.0-03
320 41 i7 # 7N.0'05
321 41 58
322 42 37
323 43 16
324 43 53*2
325 44 29/3
32645 4-1
3*7 45 37
328 46 9
329 46 40*0
330 47 8'8
33i 47 35'8
332 48 i*o
333 48 *4'4
334 48 45*8
335 49 5'3
336 49 22-7
49 38-a
337 49
338 49
o*i6
0*27
0*40
0*52
0*65
0-77
0-85
0*90
093
O'i
o-;
0-77
669
o*
0-53
0*40
5i*7N.0'O4
S.o-o6
339 50 3'i
340 50 i2 # 6S.o* 1319-9962497
•9941696
•9942504
"9943333
9*9944180
•9945045
•9945926
h m ■
3 13 6-52
3 9 lO'DI
3 s 14-70
I 18-79
57 22-89
2 53 26-98
2 49 31-07
2 45 35-16
2 41 39-25
H 495
14 46-1
14 44- 1
H 43 4
14 44/2
14 46-7
'4 47"
14 44-9
14 43-6
654
18-8
54 6*4
53 59-0
14 43-6
H4S
14 48-6
51-0
14 54-0
i'5
n-3
* 37 43*34 »5 i7'°
15 30-
'5 44'
2 33 47-43
a 29 51-53
9*9946822 2 25 55*62
9947730 2 " 59* 7>
9948650 2 18 3 '80
9-994958
9950519
9951465
9*9952418
9953379
9954348
9955325
•995631*
•9957310
0*27 9*9958320
0-15
9959344
9960380
9961431
2 14 7-89
2 10 11
2 6 i6-ol
2 2 20*17
1 58 24*26
1 54 28-35
1 50 32/45
1 46 3654
1 42 40-63
3«
34
4'
30 52-91
26 57*01
1 23 I* 10
16 0-3
•&i5'7
16 29*5
16 40-
16 45-8
16 46
16 40*9
16 30-9
16 17-3
16 1-9
15 46- 1
15 31-2
15 17-8
15 6-6
14 57'7
14 511
14 46-6
15 233
'5 37
15 52
16 8*j
16 22
16 35
959
260
16 43-6
16 46-7
16 44-2
66
3'7
251
61 26-4
16 36
16 24-4
16 9*8
15 540
15 385
15 24*3
15 n
15 1*9
14 54' 1
14 48-6
14 45-2
53 56*5
54 »'7
253
54 24
54 48
55 19*8
55 59"
56 47-
57 4«*
58 38
34-8
25
I 9
60
4!
1 7-2
60 30-3
59 4°'7
58 44'2
57 46-4
56 51-5
956
2"
55 21
54 48'9
54 24'7
54 8*4
/
54 »2-o
54 2*1
53 57' 1
53 574
54 33j
54 *5"7.
54 35 "4
55 2'
55 38'
56 22*6
57 i3" 6
58 96
7-0
i-i
60 46*3
I
61 16-8
61 28-4'
61 10-2
I
60 50'7
60 6"/ {
59 X3'o
58 xj-tl
6 26*2!
55 41 **
55 4'2
54 35'8
54 i5 ' 6
54. 3*°
Digitized by LjOOQlC
IV.
FEBRUARY, i88a.
*3
MEAN TIME.
1
•
ja
o
THE MOON'S
Longitude*
Latitude.
Age.
Meridian Passage.
Noon.
Midnight.
Noon.
Midnight
Noon.
Upper.
Lower.
I
2
3
o / ♦
113 29* 9-0
125 26 3i'j
J137 20 57-8
1 *
119 28 17*3
131 24 i*4
143 17 29*6
t tr
8. 3 30 57-2
4 18 6*2
4 44 43 'o
/ *
S. 4 23*6
4 3* 55'4
4 53 *3'o
d
I2'8
I4-8
h m
II IV 3
11 58*0
12 41 -g
h m
23 35-9
1 * *
19*71
4
5
6
49 *3 4^5
161 6 16' 1
I73 O 2*2
155 9 5* # 3
167 2 52*6
178 58 1-8
4 58 50-4
4 59 58-4
4 48 y6
5 I 2'6
4 55 38-o
4 37 18-5
15-8
168
17-8
13 22*8
14 4-0
*4 45*5
I 2 a O
1 43'4
2 24-7
7
8
9
184 57 10-5
197 26-9
209 13 20'0
190 57 50-8
203 5 26*7
2x5 24 38*8
4 23 27*6
3 4§ 54'i
2 59 28*7
4 .6 36*9
3 24 28*0
2 32 8-i
18-8
19*8
20-8
15 27-9
10 12*0
16 58-7
3 6-s
3 49*7,
4 35 -o
■ ii
'12
221 39 56*6
234 24 48-4
247 32 26*1
227 59 48*3
240 55 30-5
254 16 2-7
2 2 39*7
S. O 58 2V2
N.o 10 48*4
1 31 18*8
S. 24 13-1
N.o 46 15-1
2I a 8
22*8
23-8
17 48-5
18 41-6
i 9 37 - 9
5 *3"2
6 146 1
7 9-4j
»3
»4
261 6 42*2
275 9 5T 8
289 42 o a 7
268 4 39*0
282 22 31*7
297 7 50-4
1 21 37*5
2 29 55-4
3 30 48-1
1 56 22*9
3 J 37'0
3 56 49'o
24'8
25-8
26-8
20 36*4
21 35-9
22 34-9
8 7-0'
9 6-i
10 5-5
16
304 39 ii"6
319 54 3'3
335 l6 2'I
312 X5 0*9
327 34 53'8
342 55 5^3
4 19 i*8
4 49 52-7
5 7 # i
4 36 52-6
4 57 41-4
4 57 7' 6
27-8
28-8
0-4
23 32-6
* *
28-7
11 3-0
12 0-8,
12 56-2
*9
20
21
350 33 8-6
5 34 H'9
20 XI # 2
358 6 i8-o
12 56 2*9
27 18 39*7
4 48 50*8
4 17 40*2
3 30 ii-i
' 4 35 335
3 55 4i*3
3 1 46-i
i'4
2*4
3"4
1 23-4
2 17-3
3 108
'3 50-4
14 44 '0
15 37-51
1
22
23
«4
34 18 48-7
47 56 45'9
61 6 487
41 11 27*2
54 35 4'3
67 32 30-3
2 31 2*8
1 25 4-0
N.o 16 36*1
1 58 37-5
N.o 50 53-7
S. 17 23-1
4'4
4 4'3
4 S7'8
5 Si'i
16 31-1,
l Z *4*5,
18 17-5
*5
26
3 |
73 5* 43'7
86 19 xo*2
98 30 58' X
no 32 38-1
80 8 4-7
92 26 36*5
104 32 48*4
116 30 55'i
S. 50 40*4
1 53 47*3
2 50 21*0
3 38 24-6
1 22 54- 7
2 23 1*2
3 *5 3*'9
3 58 44-4
9*4
io*4
643-6
7 34*7
8 23*9
9 11*0
19 9.3!
»9 59 '5,
20 47 -7'
21 33 -8j
*
122 28 4*6
128 24 28-9
S. 4 16 22 -5
S. 4 31 97
ii-4
9 S6' 1
1
22 l8 -0
Digitized by
Google
24
FEBRUARY, 1882.
v.
9
10
11
12
«3
H
»5
16
*7
18
19
20
21
22
*3
o
1
2
3
4
!
•9
10
11
12
»3
«4
15
16
\l
20
21
22
23
24
MEAN TIME..
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Right
Ascension.
Var.
inio*».
Declination.
Var.
in ip".
Wednesday
h m s
7 3845'S7
I.
74047-90
74250-24
74452-38
7 46 54-33
74856-09
75057-65
75259-02
7 55 0'20
757 «"•**
7 59 i-9$
8 1 2-58
8 3 299
8 5 3-21
8 7 325
8 9 3-10
8 ii 2-76
813 2-23
815 1-52
8 17 0-62
81859-54
82058-27
82256-82
82455-19
20*438 N.
20*406
20-373
20-341
20*309
20*277
20-244
20*212
20*l8o
20*148
20*117
20*084
20*052
20*022
19*991
19*959
19*928
19*897
19*866
19-835
19*804
19*773
19*743
19*713
N
Thursday 2.
82653-38
82851-39
8 3049-22
83246-88
83444-36
8 3641*67
83838-80
84035-77
842 32*56
84429-19
84625-65
84821-94
8 50 18-07
8 52 14-04
854 9*85
856 5-50
8.58 0-99
85956-33
9 155-51
9 3 4 6 '54
9 5 4 I "4*
9 73 6#I 5
9 9 3°'73
91125-17
91319*47
19*683
19*653
19-624
i9*59S
19*566
19*537
19*508
19*480
19*452
19*424
19*396
19*368
19-342
19*315
19*288
19*262
19-236
19*210
19*184
19*159
19-134
19*109
19*085
19-062
19*038
N.
N.
74746
740 57 - 7
7 34 4" 6
727 7 - o
720 s*o
71258
7 5 47
65832
651 12*6
64548-7
63620"
62848-2
621 11-7
6 13 31
6 546-4
557 57-7
5 50 5*o
542 83
5 34 7'7
526 3-3
5I755 1
5 943**
5 127-3
4 53 7'9
67*68
68*46
I
69*23
2
69*97
3
70*71
4
71*46
5
72*19
6
72*91
2
73*63
74*34
9
75*04
10
75*73
11
76*42
12
77*u
13
77*78
•4
78*45
J 5
79*12
ib
79*78
l X
80*42
18
81*05
19
81-68
20
82*32
21
8293
22
83*54
*3
44444.8
436 18*1
42747-9
41914-1
4 1036-9
4 156-2
35312-1
34424-7
3 35 34*0
3 2640-0
31742-8
3 842-4
25938-9
2 50 32-3
24I 22*7
2 32 10-0
2 22 54*4
2 13 35-8
2 414*4
I54 50-I
I45 23-0
1 35 53-;
I 26 20'6
I 1645-4
i 7 7*6
84*15
84 74
85*33
85*92
9! 86*49
87-07
87-63
88-18
88-73
89-27
89-80
90-33
90-84
91-35
91*86
92-36
92*85
93*33
93*81
94*28
94*74
95*20
95*65
96*08
96-52
Right
Ascension.
Var.
in 10-.
Declination.
Var.
in io»«
Friday
b m t
91319-47
9 15 13*62
917 7-64
919 1-52
9 2055*20
92248*87
9244235
9 26 35*70
9282892
93022-02
9321499
9 34 7-84
936 0*58
93753-20
9 3945-7*
941 38-10
94330-38
94522-56
94714*64
949 6*61
95058-48
952 50-26
9 5441-94
9563352
95825-02
o 016-43
2 7*75
3 58*99
550-15
741-23
932-24
o 11 23*18
o 13 14-04
015 4-84
01655*57
o 1846-23
02036-84
022 27-39
02417-89
026 8-33
02758-73
02949-08
03139-38
o 33 29-64
03519-87
037 10-06
O39 0'22
04050-35
04240-45
s
9-038
9-014
8-992
8-968
8-946
8*924
8*902
8*881
8*860
8 839
8*818
8*799
8*780
8*761
8-742
8*722
8*705
8*688
8-671
8*653
8-637
8*622
8-605
3-
o f *
N.ix 7 7*6
105727-1
1047
10 37 5
1028 io*7
10 1820*3
10 827
95832
948 34-9
9 38 35
92833
9 1829-3
823-1
58 14-8
848 4'5
83752-2
82737-9
8 1721*6
75643-6
74621-8
735582
72532-9
8*59oN. 715 5'9'
Saturday
8-576N.
8-561
8-547
8*533
8-520
8-508
8*49*
8-483
8-472
8*461
8-449
8-439
8-430
8-421
8*412
8*403
8*396
8-388
8-380
8-374
8*368
8*363
8-358
8-353
8-348
N.
4-
7 437*3
654 7'i
64335-3
633 1-9
622 27-1
6 11 50-9
6 1 13-2
5 50 34'i
539 53*7
5 29 12*0
5 1829
5 744-9
45659-6
44613
43525-6
4 24 37'°
41347-3
4 a56-7
352 52
34i i*'7
330193
3 19 25-2
3 830-2
2 57 34-5
246 38-1
96*5*
96* 96
97*3*
97'7*
98-19
98*60-
99*oo»
99*3*
99-7-S
00*13
00*49
00*85
OX*2S
01-55
oi'88
02-22-
02*55
02-87
03*17
03'47
03*78
04*08
04-36
04-63
04*90
05-17
©5*43
05-68
05-92
06-16
06-40
06-63
06*84
07*05
07*26
07*46
07-64
07*83
08 '02
o8*I9
08*36
08*51
08*67
08-83
08*96
09*09
09*22
09*34
09-46
Digitized by
Google
VI.
FEBRUARY, 188a.
2<
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Bight
Ascension.
Var.
inio*.
Declination.
Var.
Inio-.
i
Right
Ascension.
Var.
Inio*.
Declination.
Var.
Inio".
SlJHDAY 5.
Tuesday 7.
h m a a
t 9 9
h m ■ a
Of* *
O
104240-45
i«-348
N. 24638*1
109-46
O
12 11 10*85
18*713
S. 5 59 53'S
6 1038-0
107-47
I
104430-53
104620*58
18-344
235410
109-57
1
12 13 325
18 * 743
107*26
X
18-341
22443*3
109-67
2
121455*77
12 1648*42
18*764
621 20*9
107*05
3
1048 10*62
18338
213450
109-76
3
18-786
632 2*0
106*84
4
1050 0*64
18-336
2 246*2
109-85
4
12 l8 4I*20
18*808
64243-0
106-63
5
IO 51 50*65
i*'334
1 5146*8
109-93
i
12 20 34*11
18*829
653 22*1
106' 39
6
105340*65
*8-333
14047-0
110*01
12 22 27*15
18*852
7 3 597
106*15
j
105530-64
18*331
1 2946*7
1 1846*0
110*08
1
12 24 20*34
12 2013*87
18*877
7H35'9
105-92
105720*63
18-33*
110*15
18*900
725 10*7
105*68
9
105910*62
18-332
1 744 - 9
110-21
9
12 28 7*14
12 30 0*76
18914
7 3544-0
105*42
10
II I 0*61
18331
o!S 6 43S
110*l6
10
18*949
746 157
75645*8
105*15
11
II 250*61
18-333
04541*8
ilO*30
ti
I2 3I54*53
123348*45
18-974
104*88
12
II 440*61
II 630*62
18 '334
03439*9
110-33
ia
19*000
8 714*2
104*60
13
18-336
023 37*8
110*37
13
12 35 42*53
19*027
8 1741-0
104-32
H
II 820*64
18-338
01235-5
110-40
»4
Ia 37 36*77
I2 39 3I-I8
19*054
828 6*1
104-03
1
II IOIO-68
1834a
N. 1 33*0
110*42
15
19*081
8 3829-4
103-73
II 12 0*74
18*345
8. 929*6
110-43
16
I24I25*75
19*109
84850-9
103*43
,'7
II I35O-82
i8*349
02032*2
110*43
11
12 43 2049
19- 138
85910*5
103*12
18
IIIS40*93
II 1731*06
18*353
03134*8
iio*43
I2 45I5*4I
19*167
9 9* 8 "3
102*80
i f 9
i8*3S8
04* 37 '4
iio*43
19
12 47 IO-5O
19*197
91944-1
102-47
20
II 1921*23
18-364
05340-0
110-42
20
1249 5*77
19-227
92957*9
102*13
21
11 21 11*43
11 23 1*67
18*370
1 442*5
110*40
21
1251 1*22
19*257
940 9*7
101 *8o
22
18-377
11544*8
110*38
22
12 52 56-86
19-188
95019*5
101*45
23
112451*95
18383
S. 12647-0
110-35
23
125452-68
19-319
S.10 027-1
101*09
MOHDJ
lt 6.
Wbdhbs
DAT 8.
O
11 2642-27
18-391
S. 1 37 49-0 110*31
O
12 5648*69
19-351
S.10 1032*6
ioo*73
I
11 28 32*64
18398
14850-7
110-27
I
125844*90
19-385
102035*9
100*36
2
11 3023*05
18-407
15952-2
IIO'll
2
13 041*31
19*418
103030*9
99-98
3
11 32 13*52
18-417
2 10 533
ixo-16
3
13 237*91
19*451
104035-7
99 '60
4
1134 4*05
18-426
221 54*1
110-09
4
13 4 34-72
13 631*73
19-485
105032*1
99-21
5
11355463
•8*435
2 32 54-4
110-02
1
19*519
11 026*2
98*81
6
113745*27
113935-98
1 1 41 26*76
18-446
»43 54'3
2 54 538
109-95
13 828*95
19*555
II 10 17-8
11 20 6*9
98-39
j
'8*457
109-87
1
13 1026-39
19-591
97'97
18-468
3 S5*-8
3 1651-1
109-78
13 1224*04
19*626
112953-5
97-56
9
11 43 17-60
11 45 852
114659*52
18-480
109*68
9
13 1421*90
19*662
11 39 376
97*13
10
18-493
32748*9
109-58
10
13 16 19-99
13 18 18-30
13 20 16*84
19*700
11 49 19-0
1158578
96-68
II*
18*506
3 38 46i
109-48
11
19-738
96*24
12
114850-59
18-519
34942*6
109-36
12
19-775
12 833*9
95-78
13
115041*75
i8*533
4 <>3 8 '4
109*23
13
1322 15-60
19-813
12 18 7-2
95*32
14
115232*99
18-548
4 « 33*4
109*10
14
13 24 14*60
13 26 13*83
19-852
122737-7
94*85
15
115424*33
115615*75
18-563
42227*6
108-97
•5
19-892
1237 5*4
94' 37
16
18-578
433 21*0
108*83
16
132813*3019-932
1246 30*2
93-89
l 7
n 58 7*27
18-595
44413*6
108-68
\i
133013*0119-972
125552-1
93*39
18
115958*89
18-612
455 5^
108-53
13 32 12*9620-011
13 510*9
92*88
*9
12 I 50*61
18-629
5 f 5S l
51645*6
108-37
•9
13 34 13* 1620-053
13 36 13*6020-094
13 1426*7
92-37
20
12 3 4* '44
18647
108*20
20
132339*4
91-86
21
1* 5 3437
12 726*41
18-664
5*7 34*3
5 3**i'9
108*03
21
13 38 14*2920-136
133249*0
9!'33
22
18*683
107-84
22
1340 15*2320-178
1342 16-^320-222
13 44 l7'8920-26 5
I34I55-3
90-79
*3
12 018 57
18-703
5 49 *'4
107-66
*3
135058-5
90-25
24 12 II IO*55
18-723
S. 5 59 53*8
107-47
24
S.i359 58*3
89-69
Digitized by
Googk
26
FEBRUARY, 188a
•
VII.
MEAN TIME.
THE MOON
Thuks
'S EIGHT i
ASCENSION AND DECLINATION.
'.
1
Right
Ascension.
in 10*.
Declination.
Var.
in ip".
DAY 9.
Saturday ii.
h m 8 ■
/ n *
h m s s
1 *
*
O
134417-89
20*265
s.13 5958-3
14 854-8
89*69
15 27 IO'OO
22-682
S.i949 4*'7
52*40
I
13 46 19*61
20*308
89'i3
I
15 2926-31
22*734
195454*1
5-«'39
2
134821-59
20' 352
141747-9
88*56
2
153142-87
22*787
19 59 59*4
20 458*5
50*37
3
135023-84
135226-35
20-397
142637-5
87-98
3
15 33 59*75
22 * 840
49-33
4
20*441
»4 35*3*7
87*40
4
153616-95
22*893
20 951*3
48*28
5
135429-13
20*487
1444 6 *3
86* 80
5
I5 38 34-47
22*947
201437-9
47 -H
6
135632-19
20*533
145245-3
86*19
6
154052*31
22*999
20 19 l8'2
46*18
i
135835-52
20*578
15 I 20*6
85'58
1
1543 10-46
23*051
20 2 j 52*0
2028 19*4
45*10
14 039-13
20 * 625
15 9523
15 1820*2
84-97
154528-92
23*103
44*02
9
14 243*02
20*672
«4*33
9
154747-70
23*156
203240*2
4* *93
10
14 4 47' 19
20*718
15 2644-2
83-68
10
1550 6*79
23*208
203654*5
41*83
ii
14 651-64
20*766
15 35 4*4
83-04
11
15 52 26*19
23*259
2041 2-2
40*72
12
14 856-38
20*814
154320-7
82-38
12
15 5445*9°
23*311
2045 3*1
39*59
*3
14 11 1*41
20*862
'5 si 330
81-72
13
1557 5-92
155926*25
23*362
204857-3
38*47
H
14 13 6-72
20*909
»5 5941-3
81*04
»4
23*413
205244-7
37'33
15
14 15 12*32
20*958
16 745*5
80-35
'5
16 146-88
23-463
205625*2
36*18
16
14 17 l8'22
2 1 * 007
161545-5
79*66
16
16 4 7'««
23513
205958-9
35*02
:i
141924*41
21*057
16 23 41 -4
78-96
\l
16 629-^04
16 850-58
23*564
21 325-5
21 045-1
33-85
14 21 30*90
21*107
1631 33-0
78-24
23*6x4
32*67
'9
142337-60
142544-78
21*157
163920-3
77'5*»
19
16 11 12*41
23-663
21 957*6
31*49
20
2 1 * 207
1647 3'3
76-79
20
161334-53
161556-95
23-712
21 13 3*0
30*30
21
142752-17
21*257
* 165441-8
76-05
21
23-761
21 16 1*2
29*10
22
142959*86
21*307
17 215-9
75'3*
22
16 18 19*66
23*808
21 1852-2
27*88
23
1432 7-86
21*358
S.17 9 45 '5
74'54
23
162042*65
23-856
S.21 21 35*8
26*66
Friday
IO.
SUHDA
Y 12.
14 34 16-1621-409
S.17 17 10-4
73*77
O
1623 5-93
23-903
S.2I 24 I2-IJ
*5H3
1
143624-77
21*461
172430-7
72*99
I
162529-49
23*951
21 2641*0
24*19
2
143833-69
21*513
173146-3
72*21
2
162753-34
23-998
2129 2*4
22*95
3
144042-93
21*565
173857-2
7-<'4i
3
16 30 17*46
24-043
21 31 l6*4
21*70
4
144252-47
21*617
1746 3-2
70*59
4
16 3241-85
24*088
21 33 22*8
20*43
5
1445 2-33
21*669
1753 4*3
69*77
5
1635 6-51
24*133
21 352I-5
19*15
6
1447 I2 '5°
21*721
18 0-5
68*96
6
163731-44
24*177
21 37 I2'6
17*87
7
144922-98
21*773
18 651-8
68*13
7
163956*63
1642 22'08
24*220
21 38 56-0
16*59
8
145133-78
21*827
18 1338-0
67*28
8
24-263
21 40 31-7
15*29
9
145344-90
21*880
18 20 19*1
66*42
9
164447-70
•H'307
2I4I59-5
13*98
10
H55 5 6 '34
21*933
182655-0
65-55
10
164713-76
24*348
2I43I9-5
12*67
11
1458 8-io
21*986
183325-7
64*68
11
164939-97
24*389
21 4431*6
11*36
12
15 020-17
22*038
183951-1
63*79
12
1652 6-43
24*430
214535*8
10*03
x 3
15 2 32-56
22*092
1846 11-2
62*90
13
I654 33I3
24*470
2146 32-0
8*70
14
15 445^7
22*146
185225-9
61*99
14
1657 0-07
24*510
21 4720-2
2148 0*4
7*37
15
15 658-31
22*199
185835-1
6x*o8
15
165927*25
H-549
6*02
16
15 9 1 1 * 66
22*252
19 438-8
60*15
16
17 154-66
24*587
21 48 32-4
4*66
17
15 1125-33
22 * 306
19 1036*9
59*22
:i
17 422*29
17 650*15
24*624
21 4856-3
3-31
18
15 x 3 3933
22*360
19 1629*4
58-28
24*661
21 49 12*1
i*94
x 9
151553-65
22*413
19 22 16-2
5733
19
17 918*22
24*697
21 49 19*6
21 49 i8*8
0-56
20
15 18 8*29
22*467
192757*3
56*36
20
171146-51
24*732
0*82
21
152023-25
22*520
i9 33 3 2 -5
55-38
21
171415-01
24*767
2140 9-8
2148 52-5
214826-8
2*19
22
152238-5322-573
1939 1*9
54*40
22
171643*71
24*800
3-58
2 3
I5 24 54'i3«' 6 *7
194425-3
53-40
*3
17 19 12*61
24*833
4'98 j
H
15 27 10-0622*682
s. i9 49 4a'7
52*40
24
172141-71
24*866
S.2i47 5*'7
6*38
Digitized by
Google
Fill.
FEBRUARY, 1882.
MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
Bight
Ascension.
Vur.
inio*».
Declination.
Vaar.
imo-.
Bight
Ascension.
V«r.
inio»
Declination.
Tar.
imp-.
I
2
3
4
5
6
7
o
9
JO
11
12
13
'5
16
17
18
19
20
21
22
*3
o
1
2
3
4
5
6
7
i 8
9
10
11
12
*3
14
*5
16
17
18
19
20
21
.22
1*3
*4
h m 1
I7 2I4I
17 24 II
17 2640
17 29 10
^7 3^ 39
*7 34 9
17 3040
17 39 10
U74140
1744 11
'174642
'749'3
17SI44
175646
175918
iS 1 49
18 421
18 653
18 925
18 11 57
18 1429
18 17 1
18 1933
MOHDAY
1
•71124-866
•0024-897
1822 5
18 24 38
18 27 IO
18 29 42
18 32 15
183448
18 3720
18 39 53
1842 25
184458
18 47 31
18 50 4
18 52 36
1855 9
18 57 4^
19 o 14
19 247
19 520
19 7 53
19 1025
19 12 58
19 15 30
19 18 3
192035
1923 8
•47
•13
■i
•95
•59
•37
.36
*S5
•«7
■11
;53
•I6J2S-3I9
•1225-333
1625-348
'2925*362
•5°!*5-374S,
Tuesday
•78 25-3*6 S.
24-927
24*957
24-986
25-014
25042
25*068
25-094
25*118
25-142
25*166
25-188
25-209
25*230
25*249
25*268
25-286
25-303
13
53
99
S
6
25*396
25-405
25*414
25*422
25*429
25*435
•2825*441
"94 25 "446
•63 a 5 '449
•33 2 5*45»
# 05|25-453
•77j a 5'454
# 5°*5"4S5
•23J25-454
'95^5 '453
' 06*25 -450
35
67
29
88
4?
92
35*447
*5'443
25 438
25*434
25*428
25*420
25'4i3
37;25-404
*3-
O ' <
.214752
21 47 10
21 46 19
214519*
2144 12
2142 55
21 41 30
213057
21 38 15
21 3624
2I34 25-
21 32 J7
21 30 O
21 27 34
21 25 O*
21 22 l8
21 I926
21 1626
21 13 17
21 IO O*
21 633-
21 258*
2059 14*
.20 55 22
14.
,20 51 20
2047 io-
20 42 5 1
2038 24*
20 3348*
20 29 3
2024 9'
20 19 7
20 13 56
20 837
20 3 8
195732-
19 51 46
194552-
193950
193339-
192720
19 2052
19 14 16'
19 731
19 038
18 53 37-
184628-
18 39 10
.183145-
6*38
7*78
9*19
10*60
12*02
13*45
14-88
l6*30
17*73
19*17
20*62
22-06
23*51
*4*95
26*39
27-85
29*31
30-76
32*21
33*67
35-13
36-58
38*03
3V49
8 40*95
7 42-41
9 43*86
4 45*31
46-76
48-21
49-^5
51-09
52-54
53-98
55-41
56-84
58-27
59-69
6i*ii
62*52
2 63*93
5 65-33
3 66*73
8 68-12
>! 69-50
70-88
72-25
73-62
74-98
o
I
2
3
4
i
7
8
9
1.0
11
12
13
14
15
16
17
18
19
20
21
22
*3
Wedhesday
h m s
•9*3 8-37
15-
192540-77
1928 13-11
193045-39
19 33 17-60
i9 35 49'7
19 3821-8
194053-82
i943*5-74
1945 57*57
194829*32
19 51 0-97
195532-53
1956 3-99
*9 58 35'
20 1 6*
20 J37-75
20 6 8*79
20 839-71
20 11 10*51
20 1341*20
20 16 11-77
20 1842*21
2021 12*53
t
25*404
25-395
25-3*5
25-374
25-363
25-352
25-339
25*327
25*3-3
25*298
25-283
25*268
25-252
25-235
25-218
25*200
25-182
25-163
25-143
25-124
25-105
25-084
25*063
25-042
Thursday
S.
202842*71 24-977
2031 12-5024-954
203342-1624-931
3342
*6 11
202342*72:25*021
1 '2026 12*78,24*999
2
3
5 2036 il*67J24*9o8
61203841*0524-885
7 J2041 10-29*24*862
8 204339-3924-838
92046 8-3424*813
10 204837*1524-789
11 2051 5-8124-764
12 205334-3224-739
132056 2*6824-715
14 20 58 30*9024-690
15 21 058-9624-665
16 21 326-8824-640
17 21 554*64:24-6x4
18 21 822*25124-589
21 1049-7124-564
21 13 17-0224-539
21 1544-1824-513
21 18 11-1824-487
21 20 38*0324*462
2123 4*72124-4368,
[83145
824 11
8 1629
8 839
8 041
7 5*35
74421
736 o
72730-9
718540
710 9-4
7 117-2
65217-5
643 10-4
: 5 33 55
6 24 34
615 5-0
528-8
74-98
76-32
77-66
78-99
80*32
81*63
82*93
84-23
85*52
86-79
88*07
89-33
90*57
91*80
93-03
94*24
95*43
96-63
97-8i
98-97
100-13
101-27
102-39
103-51
5 55 45*4
545 55-1
5 35 57-8
52553-6
51542*6
5 5*4'9
16.
455 0*5:104*61
44429-6105-69
43352*2106-77
4*3 8*3107-83
4 12 18-2108-87
4 1 21 '91109-90
3 50 19*4 110-92
3 39 10*9,111*92
3 27 56*4 112-91
3 16 36-0113*88
114-83
115-78
116*69
117*60
118-50
3 5
2 53 3 „
242 o*6
z 30 17*7
2 1829*4
2 6 35*7Jii9-38
1 54 36*9120*23
1 42 33*o]i2i*o8
1 30 24*01121*90
I l8 10*2 122*71
* 551-5123-51
1053 28-1 124-28
041 0*l|i25*04
028 27-6125-78
o 15 5o-7Ji26-5i
Digitized by
Googk
28
FEBRUARY, 1882.
IX.
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
i
Right
Ascension.
inio-.
Declination.
Vsjt.
in 10-.
i
Right
Ascension.
Var.
in 10".
Declination.
Var.
in io".
Friday 17.
SUHDAY 19.
h m • ■
1 * *
h m • s
9 * 9
O
2123 4*72
24*436
S.IOl5 50*7
126*51
O
23 1742*76
*3'4*4
N. 04052-4
140* 1 6>
I
21 25 31*26
24411
10 3 9*5
127*22
I
2320 3*26
13410
05452-9
140*01
2
21 2757*65
24*386
9 50 24* 1
127-91
2
23 22 23-68
*3'397
1 8525
139-84
3
21 3023*80
21 3249-98
24*361
93734*6
128-58
3
23244402
*3 383
1 22 51*0
139-65
4
*4*335
92441*1
129-13
4
2327 4-28
23-371
13648*3
139 "45
5
2I35I5*0I
2I37 4I-69
24*309
01143*8
85842-7
129*87
5
23292447
233144-58
23*358
15044*4
139-13
6
24*184
130-49
6
23-346
2 4391
138*99
?
2140 7*52
2142 32*50
14 159
8 45 37*9
131*10
1
2334 4-62
*3'335
2 18 32-3
I38-74
*4**34
83229*5
131*68
23 3624*60
*3'3*4
2 3224*0
138*47
9
214458-13
14*109
81917-7
8 6 2-5
132*25
9
233844*5*
*3'3«3
246 14-0
138*18
10
214725*31
214948*35
14*185
132*80
10
*3 4i 4*35
13-302
3 2*2
137*88
11
14*160
7 5*44* J
«33*33
11
234324-13
23-191
313486
137*56
12
21 52 13*23
H'i35
7 3922*6
i33«3
12
*3 45 43 ,8 5
13-181
327329
137-ia
13
215437*97
14*111
72558-1
»34' 33
13
2348 3-51
13-171
341 15-2
13688
14
2157 2*56
14*087
7 1230*6
659 0-3
I34'8*
H
23 5023*12
13-263
3 54 55*4
136*5*
15
21 5927*01
24* 063
I35**7
n
23 5242*67
*3*54
4 833-4
136*13
16
22 151*32
24-040
64527-4
X35'7»
16
2355 2-17
•3*146
422 9*0
U5'73
\i
22 415*49
24-016
631518
136- 13
:i
23 5721*62
13-138
435422
«35*3*
22 639*51
23-993
61813-8
136*53
235941-02
13-119
449.12-9
134*90
19
22 9 3*40
23 970
6 433-4
13692
19
2 0*37
± 19*68
23*222
5 241*0
134-46.
20
22 11 27*15
23-946
55050-8
137*18
20
23*215
5 16 6*4
134-00
21
22 ix 50*75
22 16 14*23
23923
5 37 6 *°
137*63
21
038*95
23*208
5 29 29*0
54240*8
»33'5S
22
23*902
52319*2
137-96
22
858*18
23*201
133-05
23
221837*57
23-879
S. 5 9 30*5
138-17
23
11 17*37
13*195
N. 556 5*6
i3**54
Satubd
LY l8.
MOHDA
r 20.
O 22 21 0*7813*857
S. 4S5 4o*o>3«'56
oi3 36*52'i 3 i8 9
N. 6 9 19*3
131*03
I
22 23 23*8623*836
22 25 46*8r23'8i4
2228 9'63 l 23*793
44i47*8'i38*8 3
I
o'5 55*64*3-«83
62229*9
131-50
2
42754-0139*09
2
01814-7223-177
6 35 37*3
130-96
3
4 I 3 58*7i I 39 , 33
3
02033*77,23-173
022 52*8023*169
64841*4
130-40
4
223032*33123*771
4 O 2*0139*55
4
7 *4*T
129*82
5
223254*9023-75*
346 4-II39-75
5
025 1 1*80*23- 164
714 39*3
129-24
6
2235 I7-352373*
223739*68.23*7x2
332 5-0139*93
6
27 3o-77'2 3 -i59
72733*0
128-64
128-03'
1
3 18 4*0240*10
7
02949*7123-156
032 8*6423-153
74023*0
2240 1*89*23*692
3 4 3*8
140*15
8
7 53 9*4
8 5520
8 1830*7
127-42
9
2242 23*98^23*673
250 1*9
140-38
9
34 ^7*54 23-148
03646*4223-146
126*78
10
22 4445*o6]23*654
2247 7-8523-635
224929*5823*617
* 35 59*3
140-48
10
126*13
11
2 21 56*1
140*57
11
°39 5'*9*J'»43
831 5*5
8 43 3 6 ' 3
856 3*0
125-47'
12
2 752*4140*65
12
041 24* 14 23-141
124*79
I3[22 5l5I*23|a3*S99
i53 48*3;i4o* 7 x
13
04342*9823*138
046 1*8023-136
1*4* 10
14 225412-77*3-582
15 225634*2113*564
I39 439HO-75
H
9 825*5
123-39'
12539*3^40-77
-5
048 20*6123-134
92043*7
122*68
i6!22 58 55'54;a3-547
1 II 34*7;i4o- 7 7
16
05039*4123-132
052 58*2023-131
93257-7
1*1*97
17
23 1 16*7723*531
057 30*11140*76
l l
945 7*3
121*23
1823 3 37*9i*35i5
I9 2 3 5 58-Q5*3'498
20*23 8 19*8923*482
04325*6140-73
18
05516*9823*129
95712*4
120*48
02921*41140-68
19
<>57 35*75*3»8
10 913*0
119*72
15 I7'5!i4o*6i
20
059 54*5* *3-»»
1021 9*0
118-94
21 '23 1040*74
23-467
S. O I I4-l|i4o*53
N. 1248-8 140*43
21
I 2 I3*29'23'I27
1033 0*3
118-16
222313 1*50
23452
22
1 4 32*o5'23-i26
I 650-8023*126
104446*9
117-37
23 23 15 22*17
23-438
02651*0140*30
*3
105628*7
116-571
h[ 2 3 i 7 4*"76 , *3-4*4
N. 040 52 -4! 140* 16
24
1 9 9-56J23-126
N.11 8 57
"5'75
Digitized by
Got
o
X.
ttAiK
UAJ
111
[, I882
•
*9
! MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
. ta I AteemrioD.
J"-
DecUnatioiL
Tit.
in 10".
i
H
Bight
Attention.
Vtr.
inio-
DceUsttioB.
Yar.
in io".
TlTMDAY 21.
THUE8DAY 23.
has •
or*
h m ■ ■
t m *
O
1 9 956
1 11 28-31
S3* 126
N.11 8 5*7
"5*75
O
3 OI5'20
»3'H5
N.1833 0*2
66*97
13*126
1119 37*7
114*91
I
3 * 34-14
23*143
183038-5
1846 9*9
65* 81
1 1347*07
I3*ii7
11 31 a*8
II 42 26*8
114*09
2
3 4 5**99
3 7"'»
13*140
6465
1 16 5*83
23*117
113*24
3
23* 136
18 5851-8
63*49
1 18 24*59
13*117
"53437
111-38
4
3 9 30*02
13*131
62* 33
12043-35
13*117
i* 4 554
12 16 1-9
111*52
5
31149*41
3*4 |*7
3 16 26-91
31845-62
23*119
19 5 2*2
61*16
6
123 2-12
13*118
110-64
6
13-115
19 11 5*7
59*99
7 12510*89
Si 1 27 39*66
9/12958-44
13-118
1227 3*1
109*76
1
13*111
19 17 2-1
5881
13*119
1237590
108-86
13-117
192251-4
57*63
13*131
124849*4
107*95
9
321 4-31
13*111
192833*7
56*47
10
1 32 17*23
13*131
"59 344
107-04
10
3*3 "97
13*107
1934 90
55 »9
11
i 34 36-02
*3'*33
131013-0
132047-8
106-12
it
3*5 4* 59
328 0-18
13-101
193937*2
194458-3
5411
12
13654-82
13-134
105*18
12
23*095
51 91
13
13913-63
13-135
133116*1
104*24
*3
33018-73
13*089
1950 12*3
51*74
H
141 32-44
13*136
134138*7
103*18
*4
3 3*37*5
23-083
1955 192
5056
15
143 51-26
13-137
-351555
10133
15
3 34 55*73
23-077
20 019*0
49*37
16
146 10-09
13-139
14 2 6*6
101*37
16
3 37*4**7
23-069
20 5 11*7
48*18
17
14828-93
23*141
14 12 n*9
100-39
:i
33932-56
13*061
20 957*2
46*99
18
15047-78
13*141
1422 11*3
1432 4-8
99'4i
3 415091
•3*«54
20 1435*6
45* 80
•9
1 53 6-63
*3-i43
98-42
'9
3 44 9***
23-045
2019 6*8
4461
20
1 55 *5 '49
*3" I 44
144152*5
145133*8
97*4*
20
34627-45
23*037
2023 30*9
43*4»
21
1574436
13*146
96-42
21
34845-65
13-018
202747*9
41 13
22
2 3-24
13*148
15 1 o*3
95*4<>
22
3 5* 3*79
13*019
2031 577
41*03
n
2 222*13
13-148
N.15 1038*6 94-38
23
35321-88
13*010
N.2036 0-3
39*«4
Wedhesi
>AY 22.
Frida 1
r 24.
2 441*02
23' 149
N.15 20 1-8 93-35
3 55 399*
35757-88
•3-000
N.203955-8
3865
I
2 659*92
2 918-83
13*151
15 29 18-8
15 38 29*6
91-32
1
21*^89
204344*1
37-46
2
a3-iS3
91*28
2
4 o*5*78
22-978
204725-3
36-17
3
21137*75
*3 #I 53
i547 34*i
90- 13
3
4 233-62
22-967
205059-3
205426*1
35*07
4
2 13 56-67
2 16 15-60
23**54
155632-3
89-18
4
4 4 5**39
22*956
33-87
5
23*155
16 524*2
88-12
5
4 7 9*09
22-944
205745*8
31*68
6
2183453
23-156
16 14 9-7
162248*8
87-05
6
4 926-72
21932
21 058*3
31*49
7
22053-47
23*157
«5*97
1
41144-27
22-919
21 4 3*7
30-30
8
2 23 12*41
23-157
16 31 21*4
84-89
4'4 **75
22-907
21 7 1*9
19*11
9
22531-35
23-157
163947*5
83*82
9
4 16 19-15
22-893
21 953*°
27-91
10
2 2750*29
23-157
1648 7*2
82-73
to
418 36-46
22-878
2ii2 37*0
16-73
11
2 30 0*24
2 32 28*19
23-158
16 5620*2
81-63
II
42053-69
22*865
21 15 13*8
•5-54
12
23-158
17 426-7
8o-53
12
423 10-84
22-851
21 1743*5
21 20 6*1
14-36
13
23447*14
23*158
17 12 26-6
79*43
*3
4252790
22*836
23*17
14
2 37 6-09
23*15*
1720 19-8
78-31
14
42744-87
22*820
21 22 21*6
21-99
15
2 39 2 5*°3
23-158
1728 6*3
77-19
*5
430 1-74
22*803
21 24 30*0
20*81
16
24143*98
23*157
173546-1
76-07
16
432 18-51
22-787
21 26 31-3
19-63
17
244 2-92
13*156
174319*2
74*9*5
•z
4 34 35**9
43651-77
22-772
21 28 25*5
18-45
18
24621*85
*3*'55
175045*6
73*83
18
22-755
21 30 12*7
21 31 52-8
17-18
*9
24840*78
23*154
1758 5'i
72-68
19
4 39 8-25
22*737
16-10
20
25059*70
253 18*61
23*153
18 517*8
71*55
20
441 24-62
22*719
213325*9
14-92
21
23-151
18 12 23*7
70-41
21
44340*88
21-701
213451*9
13*75
22
25537*51
23-149
18 1922*7
69-27
22
445 57*°3
11-683
21 36 10*9
11-59
■ 2 3
25756*40
23-147
18 26 14*9
68-13
*3
44815-07
45028-99
11 '663
21 37 2VO
N.21 3828*0
ii*43
1-
3 015*28
23-145
N.1833 0-2
66*97
1
24
12*644
10-26
Digitized by vjOC
O
30
*J!iUtt
UAJ
til
[, 1002
•
XI.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Right
Ascension.
Vir.
in io".
Declination.
Var.
in io*.
f
Right
Ascension.
Var.
in 10-.
Declination.
Var.
in io*.
Saturday 25.
MOHBAY 27.
h m ■ s
Of* 1
has s
o / * *
O
45028*99
22*644
N.2I 3828*0
10*26
O
6 36 18-30
21-343
N.20 20 46*9
40*87
I
45244-80
22*625
21 39 26*1
9*10
I
63826*26
21*310
20 16 38*9
4i*8x
2
4 55 °'49
22*604
21 40 17*2
7'94
2
64034*02
21*277
20 12 25*2
20 8 0-0
4** 74
3
45716-05
22*583
2141 1*4
6*79
3
64241-58
21*244
43*67
4
4 59 3i'49
22*563
21 41 38*7
5*64
4
64448*95
21*212
20 341*2
44*59
5
5 146-81
"•543
2142 9*1
4'49
5
64656*12
2I*I78
195910-9
45'5i
6
5 4 2*00
5 6 17-06
22*521
21 42 32-6
3*35
6
649 3*09
2J-I45
19 54 35*1
46*42
1
22*498
21 42 49* 3
2*21
1
651 9*86
21*112
1949 53*9
47*33
5 83198
22*476
21 42 59*i
1*07
653 16*44
21*080
1945 7-2
48*23
9
51046-77
""453
2143 2-1
0*07
9
65522*82
21*046
1940 15*2
49*ii
10
513 142
22*430
2142583
1*20
10
65728-99
21*012
193517-9
50*00
11
51515-93
22*407
214247-7
233
11
65934-97
20*980
19 30 15*2
50-88
12
51730-30
22*383
21 42 30*3
3*46
12
7 I40-75
20*947
1925 7-3
5i*75
»3
5 194V53
5 21 58-61
22*359
2142 6*2
4'5»
13
7 34^-33
20*9x3
191954*2
52*62
H
22*334
214135*4
5*68
14
7 5 51-71
20*880
I9I4 35-9
53*48
IS
52412-54
22 * 309
21 4058*0
6*80
»s
7 7 56-89
20*846
19 912*4
54*34
16
5 2626*32
22*284
21 40 13*8
7*92
16
710 186
20*8X2
19 343-8
l8 58 I0'2
55*18
17
52839-95
22*259
21 3923*0
9*02
\l
712 6-64
20-780
56*02
18
5 30 5343
5 33 6 '7 6
22-234
21 38 25*6
10- 12
7 14 11-22
20*747
l8 52 31*6
5686
I?
22 '208
21 3721-6
11*21
19
7 l6 15*60
20*713
18 46 47-9
57-69 1
20
5 35*9-93
22' l8l
21 36 II'I
I2*30
20
718 19*78
20*680
184059-3
58*5* :
21
5 37 3*93
22*154
213454-0
13*39
21
72023*76
20*647
1835 57
59*33
22
5 3945-78
22*128
213330*4
14*48
22
72227*54
20*6x4
1829 7-3
60*13 '
23
54158-47
22*101
N.21 32 0-3
I5*56
*3
72431*13
20*581
N.1823 4-1
60*94 !
s
UNDJ
lY 26.
TUESDA
r 28. 1
54410-99
22*073
N.21 3023*7
16*63
72634-51
20*547
N.i8i6 56*o
61*74
1
54623-34
22*045
21 2840*7
17*70
I
72837*69
20-514
18 1043*2
62*53
2
548 35-53
22*017
21 2651*3
18*77
2
7 3040*68
20*482
18 425-7
63*32
3
5 5047-55
21:989
2124555
19*83
3
7 3M3'47
73446*06
20*448
1758 5-4
175136*5
64*10
4
5 52 59*40
21*961
21 22 53*4
20*88
4
20415
64*87
5
55511-08
21*932
21 2045*0
21*93
5
73648-45
20*382
1745 5*0
65-63
6
55722-58
21*902
21 l8 30*3
22*97
6
7385065
20*350
17 3829-0
173148*4
66*38
J
55933-90
21*872
21 l6 9*4
24*01
1
74052-65
74254-46
74456*07
746 57-49
20*318
67-13
6 145-05
21*843
21 I342'2
25*05
20*285
1725 3*4
67*88
9
6 356-02
6 6 6*8i
21*813
21 11 8*8
26*08
9
20*252
171813*9
68-63
10
21*783
21 829*3
27*10
10
20*221
17 11 199
69*36
11
6 817-41
21*753
21 543*6
28*12
11
74858-72
20*l89
17 421*6
70*08
12
6 1027-84
21*723
21 251*8
29*13
12
75059*76
20*157
16 57 19*0
70*79
13
6 12 38-08
21*692
2059540
30*14
13
7 53 061
20*125
1650 12*1
71*50
H
6 1448-14
21*661
205650*1
31*15
H
755 i'*6
20*093
1643 I '°
72*21
15
6 1658-01
21*629
2053 40*2
3**H
15
757 i'73
20*062
163545-6
72*91
16
619 7-69
21-598
205024*4
33*13
16
759 *' 01
20*031
16 28 26- 1
73-6o
<7
621 17*19
21-567
2047 2*6
34*i*
17
8 I 2'10
19*999
1621 2*4
16 13 34*6
74*29
18
623 2b -49
"'535
204334-9
35*io
18
8 3 2-00
19*968
74*97
*9
625 35-61
21-503
20 40 1 *4
•36-08
19
8 5 *-7*
19938
16 6 2-8
75*64
20
62744-53
629 53*26
21-471
20 36 22*0
37*05
20
8 7 1*26
19*908
15 58 26-9
76*31
21
21-439
20 32 36*8
38*01
21
8 9 o*6i
19*877
155047*1
76-97
22
632 1 '80
21*407
202845-9
38-96
22
8 1059*78
19 847
1543 3-3
153515*6
77*63
2 3
634 10*15
"'375
202449-3
39-92
23
8 1258-77
19*817
78*27
H
6 36 18*30
"'343
N.20 20 46*9' 40*87
24
81457-58
19*787
N.15 27-24- x 78*90
Digitized by
Got
o
XII.
FEBRUARY, 1882.
31
MEAN TIME.
PHASES OP THE MOON.
Feb. a
10
24
Feb. 3
17
h m
O Fall Moon ----17 58*0
<[ Last Quarter zo 33*7
£ New Moon -14 49*6
J First Quarter - - -9 30*7
h
([ Apogee 23
<[ Perigee --....-----14
Digitized by
Google
3*
FEBRUARY, 1882.
XIII.
MEAN TIME.
' LUNAB DISTANCES.
Star's Name
P.L.
P.L.
P.L.
PX.
i
and
Noon.
of
III*.
of
Vl\
of
IX*.
of
Position.
diff.
diff.
diff.
diff.
1 n
Of*
O 9 *
O 9 *
i
aArietis W.
78 20 2
3<>S5
79 49 7
78 4r 57
3059
81 18 7
3062
82 47 4
3066
Saturn W.
77 " 47
3051
3054
80 n %
3059
81 40 2
3063
Jupiter W.
66 26 24
3050
67 55 35
3053
69 24 42
45 n 19
3<>57
70 53 44
3061
Aldebaran W.
45 13 "
27 26 50
3055
46 42 16
3056
3059
49 4o 19
3061
Mars W.
3096
28 55 5
3<>93
30 23 24
3091
3i 5i 45
3089
Regains E.
34 56 16
88 35 22
3080
33 27 4*
»7 5 33
3090
xi 59 20
85 35 49
3099
30 31 9
84 6 10
3110
Spica E.
3019
3023
3027
3031
2
a Arietis W.
90 10 42
80 3 58
78 17 46
308a
91 39 14
3085
93 7 4*
3087
94 36 7
3090
Saturn W.
3°79
9° 3* 33
3082
02 1 5
81 14 55
3085
93 *9 33
3087
Jupiter W.
3078
79 46 22
.3081
3084
82 43 24
3087
Aldebaran W.
57 4 38
307a
58 33 22
3074
60 2 3
3076
61 30 42
3078
Mars W.
39 13 41
76 38 59
3090
40 42 3
3091
42 10 24
3092
43 38 44
3092
Spica E.
3047
75 9 45
3050
73 40 34
3053
72 n 27
3056
3
a Arietis W.
101 57 25
3101
103 25 33
3104
104 53 37
3106
106 21 39
3109
Saturn W.
100 51 10
3099
102 19 21
3101
103 47 30
3 x0a
105 15 37
3104
Jupiter W.
90 s 6
3097
91 33 19
3100
93 l z 9
3101
94 *9 38
73 18 44
3103
Aldebaran W.
68 53 26
3085
70 21 54
3087
71. 50 20
3088
3089
Mars W.
51 5
3098
52 28 17
29 30 18
3100
53 5 6 *7
3100
55 *4 37
3101
Pollux W.
28 7 39
3380
3354
3C- 53 27
61 48 53
333*
32 17 1
60 20 6
331*
Spica E.
64 46 33
3066
65 17 42
108 44 57
3068
3069
3070
Antares E.
no 13 30
3081
3082
107 16 25
3083
"5 47 55
3084
4
Jupiter W.
101 49 58
3108
103 17 58
82 8 52
3108
104 45 58
3108
106 13 58
3108
Aldebaran W.
80 40 32
3091
3092
83 37 11
3092
?5 5 3'
3092
Mars W.
62 45 10
3105
64 13 14
3104
65 41 19
3105
67 9 23
3105
Pollux W.
39 J 9 43
3*45
40 44 59
3*35
42 10 27
3226
43 36 5
48 30 31
3219
Spica E.
52 56 30
307S
51 27 50
3<>75
49 59 ">
95 « 5i
3076
3075
Antares E.
98 25 40
3088
96 57 16
3087
3088
94 ° 27
3087
5
Aldebaran W.
92 27 17
3088
93 55 4i
3087
95 *4 6
77 26 1
3085
96 52 34
3083
Mars W.
74 29 46
310a
75 57 53
3101
3100
78 54 "
55 6 9
36 40 57
82 12 47
3099
Pollux W.
50 46 27
3185
52 12 54
3179
53 39 * 8
38 9 42
3173
3167
Spica E.
86 3I* if
3<>73
39 38 26
3072
3071
3069
Antares E.
3084
85 9 49
3083
83 41 19
3082
3080
6
Aldebaran W.
104 15 27
86 15 30
3072
105 44 n
3069
107 12 58
3065
108 41 50
3063
Mars W.
3088
87 43 54
3085
89 12 22
3082
90 40 53
3079
Pollux W.
62 21 13
3141
63 4§ 33
26 46 34
3136
6 5 15 59
28 13 52
3x29
66 43 33
3124
Regulus W.
25 19 33
3*57
3143
3131
29 41 24
3119
Spica E.
29 16 36
3058
27 47 35
3056
26 18 31
3053
24 49 24
3050
Antares E.
74 49 33
3069
73 2 ° 45
3065
7i 5i 53
3062
70 22 57
3058
7
Mars W.
98 4 36
3058
99 33 37
3053
101 2 44
76 59 48
3048
102 31 57
3<>43
Pollux W.
74 3 ^
3094
75 3 1 23
38 31 1
61 27 41
3087
3080
78 28 22
3073
Regulus W.
37 2 16
3671
3062
39 59 57
59 58 9
3053
4i *9 4
58 28 29
3044
Antares E.
62 57 8
3037
3<>33
3027
3022
Sun • E.
'33 33 5
3431
132 11 23
34*3
130 49 33
3415
129 27 34
3408
8
Mars W.
109 59 55
3010
in 29 55
3002
l l* ° 5
2994
114 30 25
2986
Pollux TV.
85 53 27
48 57 28
3035
87 22 57
3026
88 52 38
3017
90 22 29
3008
Regulus W.
2998
50 27 43
2988
51 58 11
*977
53 28 52
2968
Digitized by
)gfr
\vr
FEBRUARY, 188a.
33
L
MEAN TIME.
LUNAR DISTANCES.
-1 9Ur*tHaine
PX.
P.L.
P.L.
P.L.
a Md
Midnight.
of
XV*.
of
XVTIl*.
of
XXI\
of
I Position.
diff.
diff.
diff.
diff.
Of*
O 9 *
/ *
1 *
;
I
a. Arietis W.
«4 *5 55
3069
85 44 43
3072
87 13 27
86 6 36
3076
88 42 6
3078
Saturn W.
83 8 57
3065
84 37 49
3069
3073
87 35 19
3076
J
Jupiter Ww-
72 22 41
3065
73 5i 33
3069
75 20 21
3072
7 6 49 5
3074
Aldebaran W.
51 9 16
3063
52 38 11
3065
54 7 3
3068
55 35 52
3070
1] Mars W.
33 *° 8
3089
34 48 31
3088
36 16 55
3089
37 45 '8
3089
I
Regains £.
29 3 12
82 36 35
3121
27 35 28
3i34
26 7 59
3148
24 40 48
3164
1 Spica E.
3<>35
81 7 5
3038
79 37 39
3041
78 8 17
3044
a) aArietis W.
96 4 20
94 57 5»
3092
97 3* 48
3<>95
99 « 3
3097
100 29 16
3100
Saturn W.
3090
96 26 20
85 40 13
3092
97 54 39
87 8 34
3094
n 1? $
3096
! Jupiter W.
84 11 50
3089
3Q9*
3094
3096
Aldebaran W.
62 59 19
3079
64 27 54
3081
65 56 27
3083
67 24 57
3084
Mars W.
45 7 3
3094
46 35 20
69 13 21
3095
48 3 36
67 44 23
3096
49 3i 5i
3096
Spica E.
70 42 23
3°57
3060
3062
66 15 27
3064
31 aArietis W.
107 49 38
3110
109 17 36
3112
no 45 31
31 14
112 13 24
3»5
Saturn W.
106 43 42
3105
108 n 45
3106
109 39 47
3108
in 747
3109
Jupiter W.
95 57 44
3103
97 25 50
3105
98 53 53
3105
100 21 56
3106
Aldebaran W.
74 47 7
56 52 45
33 40 58
3089
7 6 15 30
3091
77 43 5i
59 48 59
36 29 49
3091
79 12 12
3091
Mars W.
3101
58 20 53
3103
3103
61 17 5
3104
Pollux W.
3*95
35 5 15
3281
3267
37 54 39
•3*55
1
Spica E.
58 51 20
307a
57 22 36
3<>73
55 53 53
3074
54 25 11
3074
Antares E.
104 19 26
3085
102 50 58
3086
101 22 31
3087
99 54 6
3087
4
Jupiter W.
107 41 58
3108
109 9 58
88 2 11
3109
no 37 57
3107
112 5 59
3107
Aldebaran W.
86 33 51
3092
3091
89 30 32
3090
90 58 54
3089
Mars W.
68 37 27
3105
70 5 31
3105
7* 33 35
3104
73 1 40
3103
Pollux W.
45 * 52
3211
46 27 49
3204
47 53 53
3197
49 20 6
3190
Spica E.
47 1 5i
3075
45 33 "
3<>75
44 4 3i
3<>75
ft 3 I SI
88 6 45
3074
Antares E.
92 32 2
3087
91 3 37
3087
89 35 JI
3087
3086
5
Aldebaran W.
08 21 4
80 22 22
3082
99 49 35
81 50 36
3079
101 18 10
3078
102 46 47
3075
Mars W.
3097
3096
83 18 51
3093
84 47 9
3091
Pollux W.
56 32 57
3162
57 59 5i
3157
59 * 6 5*
3152
60 53 59
3146
Spica E.
35 I* 9
80 44 13
3068
33 43 20
3065
32 14 28
77 46 59
3063
32 45 33
76 18 17
306b
Antares E.
3078
79 15 37
3077
3<>74
3072
6
Aldebaran W.
no 10 45
3<>59
in 39 45
3<>S5
113 8 50
3050
114 38 1
96 35 41
3046
Mars W.
92 9 28
3075
93 38 8
3072
95 6 5*
3068
3063
Pollux W.
68 11 13
3119
69 39
3»3
71 6 54
3106
72 34 56
3100
Eegulus W.
31 9 10
3109
32 37 9
3099
34 5 20
3090
35 33 4*
3080
Spica E.
23 20 13
3047
21 50 59
3043
20 21 40
3041
18 52 18
3038
Antares E.
68 53 57
305S
67 24 53
3051
65 55 43
3047
64 26 28
3043
7
Mars W.
104 1 17
3037
105 30 44
3030
107 20
3024
108 30 3
3017
Pollux W.
79 57 5
3066
81 25 56
3058
82 54 57
3051
84 H 7
3<>43
Regulus W.
42 58 22
3°35
44 ^7 5*
3026
45 57 32
3017
47 *7 H
52 28 39
123 58 8
3007
Antares E.
56 58 43
3015
55 *8 49
3009
53 58 48
3003
2996
Son E.
128 5 27
3400
126 43 10
3392
125 20 44
3383
3373
8
Mars W.
116 55
2977
117 31 36
2969
119 2 27
2960
120 33 30
2950
Pollux W.
91 52 32
2998
93 " 47
56 30 52
2989
94 53 H
2979
96 23 53
59 33 46
2969
Regulus W.
54 59 45
2957
2946
58 2 12
*935
2924
(nautical almanac, 1882.)
Digitized by
Google
34
FEBRUARY, 1882.
xv.
MEAN TIME.
LUNAE DISTANCES.
1
Star's Name
and
Position.
Noon.
P.L.
of
diff.
IIP*.
PX.
of
diff.
VR
P.L.
of
diff,
IX*.
P*L.
of
diff.
8
An tares
a Aquilae
Sun
E.
E.
E.
/ *
50 58 21
103 16 14
122 35 21
1989
3421
3365
O t H
49 *7 55
101 54 21
121 12 24
2982
34<>7
3355
1 H
47 57 *<>
100 32 13
119 49 16
*974
3394
3344
/ w
46 26 35
99 9 50
Il8 25 56
2967
3381
3334
9
Pollux
Regulus
Antares
a Aquilae
Sum
W.
W.
E.
E.
E.
97 54 44
61 s 35
38 50 24
92 14 17
in 26 7
2958
1912
2926
3319
3*77
99 H 49
62 37 39
37 18 38
90 50 28
no 1 29
2948
2901
2918
33o8
3264
100 57 7
6 4 9 57
35 46 42
89 26 26
108 36 35
2938
2888
2910
3*97
3*5*
102 28 38
65 42 32
ft 'if,
107 II 27
2926
2875
290X
3285
3238
10
Regulus
Spica
Antares
a Aquilae
Sun
W.
W.
E.
E.
E.
73 *9 35
19 26 58
26 31 34
80 57 42
100 1 38
2808
2798
2867
3*33
3166
75 3 54
21 1 29
H 58 33
70 32 12
98 34 48
2793
2782
2863
3224
3151
76 38 31
22 36 21
23 25 27
78 6 31
97 7 4o
2778
2766
2861
3214
3134
78 13 28
24 11 34
21 52 18
76 40 38
95 40 «
2763
2750
2862
3205
31x7
11
Regulus
Spica
a Aquilae
Sun
W.
W.
E.
E.
86 13 16
32 12 55
69 28 52
88 17 50
2684
2668
3170
3033
87 50 17
33 5o 18
68 2 7
86 48 18
2667
2652
3165
3015
89 27 42
66 35 10
85 18 24
2651
2634
3162
2997
91 5 28
37 6 12
65 8 21
83 48 7
2633
26x7
3*59
2978
12
Regulus
Spica
a Aquilae
Sun
W.
W.
E.
E.
99 20 16
45 22 55
57 53 27
76 10 50
*545
2528
3167
2883
101 27
4 Z I 3 o
56 26 38
74 38 10
2527
2509
3174
2864
102 .41 2
48 44 31
54 59 58
73 5 5
2509
2490
3184
2845
104 22 3
50 25 58
53 33 30
7 1 3 1 35
2491
2472
3*97
2825
13
Spica
a Aquilae
Sun
W.
E.
E.
58 59 46
46 26 22
63 37 40
2379
3320
2727
60 43 51
45 * 34
62 1 36
2360
3362
2707
62 28 23
43 39 34
60 25 6
2341
3410
2688
64 13 23
42 17 29
58 48 10
2323
3467
2669
"4
Spica
Antares
Sun
W.
W.
E.
73 4 58
27 55 46
5o 37 13
2233
2298
2578
74 5^ 3 6
29 41 40
48 57 48
22x6
2274
2561
76 40 40
31 28 27
47 17 59
2199
2251
*545
78 29 9
33 15 39
45 37 48
2x82
2229
2528
15
•
Spica
Antares
Sun
W.
W.
E.
87 37 39
42 19 10
37 " 3 6
2x05
2136
2460
89 28 30
44 9 x 4
35 29 26
2091
2120
*449
91 1943
45 59 4*
33 47 1
2078
2x05
2439
93 11 16
47 50 33
32 4 22
2065
2090
2431
16
Spica
Antares
Sun
W.
W.
E.
102 33 45
57 *° 4
23 29 7
2010
2030
2423
104 27 4
59 * 52
21 46 5
2000
2019
*433
106 20 38
60 55 56
20 3 17
1992
20x0
*449
108 14 25
62 49 14
18 20 51
1984
2002
2472
l 9
Sun W.
Jupiter E.
Aldebaran E.
Mars E.
Pollux E.
20 19 18
58 29 3
78 9 57
97 43 *9
120 2 38
*439
2048
2027
2081
210X
22 1 57
56 36 44
76 17 5
95 52
118 11 41
2431
2059
2037
2090
2108
23 44 48
54 44 4i
74 24 28
94 45
116 20 54
2428
2069
2048
2101
2116
25 27 43
52 5* 54
72 32 8
92 9 48
114 30 19
2428
2081
2059
2x13
2x24
20
Suh W.
Jupiter E.
Aldebaran E.
Mars E.
Pollux E.
34 \
43 38 46
63 15 16
82 59 46
105 21 7
*4^3
2148
2127
2181
2180
35 43 7
41 49
61 24 57
81 10 49
103 32 10
*475
2x64
2143
2196
2194
37 H 56
39 59 38
59 35 3
79 22 15
101 43 33
2488
2x79
2x58
22x2
2208
39 6 26
38 10 39
57 45 3*
77 34 5
99 55 17
2501
2x96
2x75
2228
2223
si
Sun
W.
47 28 54
2580
49 8 16
2598
50 47 14 2616
52 25 48
2635
Digitized by
Googk
Trtl.
FEBRUARY, 1882.
35
MEAN TIME.
I LUNAR DISTANCES.
. 1 Star'* Name
a 1 Poahkm.
Midnight.
P.L.
of
dift
XV*.
P.L.
of
diff.
xvm*.
P.L.
of
diff.
XXP.
P.L.
of
diff.
8
Airfares
a Aquiltt
SUH
Ea
E.
Ea
1 *
44 55 4i
97 47 "
117 2 24
*959
33*4
1
43 H' 37
96 24 19
115 38 40
2951
3357
33"
1 *
4i 53 *3
95 ' 13
114 14 42
*943
3344
33°«
/ *
40 21 58
93 37 52
112 50 32
2935
3331
3288
'9
1
1
Pollux
Beg alas
An tares
a Aquila
Sun
W.
W.
E.
E.
E.
104 24
67 15 23
xz 42 18
06 37 42
105 40 2
1915
286a
2894
3*75
3125
105 32 24
68 48 30
31 9 51
85 13 1
104 20 22
2903
2849
2886
3264
3210
107 4 39
70 21 54
29 37 14
83 48 7
102 54 25
2891
2835
2879
3*53
3*95
108 37 9
71 55 36
28 4 28
82 24 O
101 28 10
2880
2821
2873
3*43
3181
IO
Regulus
Spica
An tares
a Aqoilae
SuN
W.
W.
E.
E.
E.
79 48 44
*5 47 7
20 19 10
75 H 35
94 12 24
2748
*734
2866
3198
3102
81 24 20
27 23 2
18 46 8
73 48 23
92 44 17
2732
2718
2875
3190
3085
83 18
28 59 18
17 13 18
72 22 1
91 15 49
2716
2702
2892
3182
3068
84 36 36
30 35 55
15 40 49
70 55 30
89 47
2700
2685
2920
3176
305 X
II
1
Regains
Spica
a Aquiltt
SUN
W.
W.
Ea
Ea
92 43 38
38 44 44
63 41 23
82 17 27
2615
2599
3157
2960
94 22 12
40 23 40
62 14 22
80 46 24
2599
2582
3*57
2941
96 1 9
42 3
60 47 21
79 14 57
2581
2564
3158
2922
97 4o 3°
43 4* 45
59 20 22
77 43 *
2563
2546
3162
2902
IS
Regalus
Spica
a Aqailie
SUN
W.
W.
Ea
Ea
106 3 29
52 7 50
52 7 17
69 57 39
*473
2453
3213
2805
107 45 20
53 50 9
50 41 23
68 23 18
*455
2434
3*33
2785
109 27 37
55 3« 55
11 15 o 53
66 48 31
2436
2416
3*57
2766
in 10 20
57 16 7
47 59 5'
65 13 18
2418
*397
3*85
*747
13
Spica
a Aquiltt
Sun
W.
E.
E.
65 58 48
40 56 28
57 10 49
2304
3534
2650
67 44 41
39 36 41
55 33 *
2286
3613
2632
69 31 1
38 18 21
53 54 50
2269
3705
2614
71 17 46
37 * 39
52 16 14
2251
3815
2596
*4
Spica
Antares
Sun
W.
W.
E.
80 18 3
35 3 23
43 57 H
2166
2209
2513
82 7 22
36 51 37
42 16 19
2151
2x89
2499
83 57 4
38 40 21
40 35 4
2135
2171
2485
85 47 *°
40 29 32
38 53 29
2x20
2153
2472
*5
Spica
Antares
Sun
W.
W.
E.
95 3 10
49 4i 47
30 21 31
2053
2076
2424
96 55 22
51 33 23
28 38 31
2041
2064
2419
98 47 53
53 *5 18
26 55 24
2030
2052
2418
100 40 41
55 *7 32
25 12 15
2019
2040
24x9
16
Spica
Antarea
Sun
W.
W.
Ea
no 8 24
64 42 45
16 38 58
1978
1995
2509
112 2 35
66 36 28
'14 57 57
1972
1988
2564
113 56 52
68 30 21
13 18 12
1967
1982
2646
"5 y l 9
70 24 23
II 40 20
1962
1977
2778
'9
Son W.
Jupiter E.
AldebaranE.
Mars E.
Pollux E.
27 10 38
51 1 25
70 40 6
90 19 8
112 39 57
2431
2093
2071
2125
2134
28 53 28
68 48 22
88 28 47
no 49 50
2436
2106
2084
2138
2144
30 36 n
47 x 9 H
66 56 59
86 38 46
108 59 58
*444
2120
2098
2151
2156
32 18 43
45 *8 55
65 5 56
84 49 5
107 10 24
*453
2x33
2113
2166
2167
20
Sun W.
Jupiter E.
Aldebaran E.
Mars E,
Pollux E-
40 47 38
36 22 5
55 56 26
75 46 19
98 7 24
*5*5
2213
2192
2245
2238
42 28 30
34 33 55
54 7 46
73 58 59
96 19 53
2531
2230
2209
2262
2254
44 9
32 46 13
52 19 32
72 12 3
94 3* 45
*547
2247
2228
2280
2270
45 49 8
30 58 56
50 31 46
70 25 34
92 46 2
2563
2266
2246
2298
2287
21 Sun
W.
54 3 56
2653
55 4« 40
2672
57 '8 58
2691
58 55 50
27x0
Digitized by
D 2
O
3 6
FEBRUARY, 1
882.
XVII.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
PX.
P.L.
PX.
*
and
Noon.
of
IIP.
of
VP.
of
IX*.
of
Position
•
diff.
diff.
diff.
diff.
1 *
/ *
1 ft
1 ft
21
Jupiter
E.
29 12 7
2285
27 25 46
2304
25 39 53
2325
23 54 30
2346 •
Aldebaran E.
48 44 20
2265
46 57 35
2285
45 « 13
2304
43 25 20
*3»5
Mars
E.
68 39 32
2316
66 53 56
*335
65 8 48
*354
63 24 7
»374
Pollux
E.
90 59 43
2304
89 13 50
2322
87 28 23
2340
85 43 22
*359:
22
Son
•w.
60 32 17
2729
62 8 18
*749
63 43 53
31 18 45
51 24 38
2769
65 19 2
2789
Aldebaran E.
34 43 36
2436
33 S 2
2460
2485
29 37 9
2512 :
Mars
E.
54 47 49
M74
53 5 59
75 22 48
*495
2516
49 43 47
2536
Pollux
E.
77 5 5
*455
*475
73 4i
H95
71 59 40
2516
Regulus
E.
113 50 25
2403
112 6 54
2421
no 23 49
2440
108 41 n
2458
23
Sun
W.
73 * l 9
2887
74 4o 55
2907
76 13 5
2926
77 44 5i
»?+5
Mars
E.
41 26 47
2643
39 48 5i
2665
38 n 25
2688
36 34 29
58 46 9
2710
Pollux
E.
63 40 9
2619
62 1 40
2641
60 23 41
2661
2683
Regulus
E.
100 14 24
2550
98 34 20
2567
96 54 40
2585
95 15 25
2603 '
24
Sun
W.
85 17 44
3038
86 47 9
3056
88 16 13
3073
89 44 55
3091
a Arietis
W.
26 46 41
2852
28 20 1
2851
n 53 *3
26 45 18
2852
31 26 44
2855
Saturn
W.
23 35 30
2776
25 jo 29
2784
*793
28 19 55
2804
Pollux
E.
50 45 47
2793
49 11 10
2816
47 37 3
2839
46 3 26
2862
Regulus
E.
87 5 »
2689
85 28 14
2707
83 5i 43
2723
82 15 33
2738
*5
Sun
W.
97 3 18
3172
98 30 1
3188
99 56 25
3203
101 22 31
3218
a Arietis
W.
39 12
2887
40 44 36
2894
42 17 3
2903
43 49 18
40 48 21
2912
Saturn
W.
36 9 32
2859
37 4* 43
2870
39 15 40
2883
2894
Jupiter
Pollux
W.
24 15 38
2857
25 48 52
2869
27 21 50
2882
28 54 32
2894
E.
38 23 6
2990
36 52 41
3020
35 22 53
71 n 56
3050
33 53 42
69 38 24
3083
Regulus
E.
74 19 55
2815
72 45 46
2829
2843
^857,
26
Sun
W.
108 28 54
3*83
109 55 25
52 58 55
3296
in 17 41
3308
112 41 43
3320
a Arietis
W.
51 27 47
2956
2964
54 29 53
*973
56 40
2981
Saturn
W.
48 28 16
2947
49 59 35
2958
51 30 41
2968
53 1 34
*977
Jupiter
W.
36 34 12
2952
38 5 25
2962
39 36 25
*973
41 7 11
2983
Aldebaran W.
18 28 55
3060
19 57 53
3048
21 27 6 3040
22 56 29
3036
Pollux
E.
26 38 56
3297
25 14 41
3357
23 51 35 ! 34*6
22 29 48
3506
Regulus
E.
61 55 1
2920
60 23 8
2932
58 51 3°,*944
57 20 7
*955
Spica
E.
115 46 41
2896
114 14 17
2907
112 42 712918
in 10 n
2928
2 7
Sun
W.
119 38 42
3372
121 1 31
3381
122 24 9 3390
123 46 37
3399
x Arietis
W.
63 32 5
3019
65 1 54
3026
66 3 1 34 303*
68 1 7
3038
Saturn
W.
60 35 10
48 38 3
3020
62 2 58
3028
6 3 32 3 6 '3035
65 2 6
3042
Jupiter
W.
3029
50 7 40
3036
51 37 813044
53 6 26
3051
Aldebaran W.
30 25 59
49 46 35
3038
3i 53 25
3040
33 22 48! 3043
34 52 7
45 16 58
3047
Regulus
E.
3007
48 16 31
30x6
46 46 381 3026
3<>3S
Spica
E.
103 33 33
2973
102 2 47
2981
100 32 11
2989
99 1 45
2996
28
Sun
W.
130 36 37
3437
131 58 12
3444
'33 19 39
3451
134 40 58
3457
a Arietis
W.
75 26 59
3067
76 55 49
3071
78 24 34
3076
79 53 13
76 53 25
64 56 5
3080'
Saturn
W.
72 27 32
3072
73 56 16
3078
75 24 53
3082
3086
Jupiter
W.
60 30 51
3083
61 59 22
3087
63 27 47
3<>93
3<>97;
Aldebaran W.
42 17 42
3064
43 46 36
3067
45 15 26
3069
46 44 13
3073;
Mars
W.
20 59 9
3256
22 24 12
3246
23 49 27
3*39
25 14 50
3*33 •
Regulus
E.
37 5* 25
3081
36 22 52 3090
34 54 3°;3'°o
33 26 20
3109 '
Spica
E.
91 31 39 ! 30*7
90 2 o 1 3033
88 32 28 3038
87 3 2 3042
Digitized by
Google
mu.
FEBRUARY, 1882.
37
MEAN TIME
1
LUNAR DISTANCES.
. I Star'* Name
P.L.
P.L.
P.L.
P.L.!
a Porttkn
Midnight*
of
XV*.
of
XVH1*
of
XXP.
of
L
diff.
'
diff.
diff.
di£
1 |
1 1
9 *
O 9 1
O 9 *
'
21 Jupiter
E.
tz 9 37
2367
20 25 15
2390
l8 41 26
2414
16 58 II
*439
Aldebaran E.
4i 39 57
83 58 48
2346
39 55 4
2368
38 10 43
2389
36 26 53
2412
Mars
E.
2393
59 56 10
82 14 41
*4»3
58 12 54
*433
56 30 7
*454
Pollux
E.
*377
2396
80 51 1
2416
78 47 49
2436
22
Sun
W.
66 53 44
27 56 12
2808
68 28 2
2828
70 1 53
24 36 16
2848
7i 35 19
2868
Aldebaran E.
2540
26 15 54
2569
2601
22 57 22
2636
Mars
E.
48 3 24
2558
46 23 3 1
68 38 26
*579
44 44 7
66 58 32
2600
43 5 '*
2622
Pollux
E.
70 18 49
2536
*557
*577
65 19 6
*599
Regains
E.
106 58 58
2476
105 17 ti
*494
103 35 50
2512
101 54 54
2531
*3
Sun
W.
79 * 6 13
2964
80 47 11
2983
82 17 45
3002
83 47 56
3020
Mars
E.
34 58 *
2733
33 22 6
2756
31 46 41
2780
30 n 47
2805
Pollux
E.
57 9 7
2705
55 32 34
2726
53 56 29
*749
52 20 54
2770,
Regulus
E.
93 36 34
2621
91 58 7
2638
90 20 4
2656
88 42 25
2672
H
Sun
W.
91 13 16
3108
92 41 16
3124
94 8 57
3»4"
95 36 17
3157'
a Arietis
W.
33 ° l
2859
34 33 "
31 28 28
2864
36 6 17
2871
37 39 13
2878
Saturn
W.
29 54 18
2814
2825
33 * H
2836
34 36 5
*847l
PoUux
E.
44 30 18
2886
42 57 42
2911
41 25 37
2937
39 54 5
2963
Regulus
E.
80 39 44
*755
79 4 17
2769
77 *9 9
2785
75 54 22
2801 >
,*5
Sun
W.
102 48 20
3*3«
104 13 53
3*45
105 39 9
48 24 56
3258
107 4 9
3*7".
1
a Arietis
W.
45 21 22
2920
46 53 15
2930
2938
49 5$ *7
2946
Saturn
W.
42 20 48
2905
43 53 1
2916
45 *5
2927
46 56 45
2937
1
Jupiter
W.
30 26 58
2906
31 59 9
2918
33 3i 5
2930
35 2 46
2942 '
1
Pollux
E.
32 25 12
88 5 10
3118
30 57 24
3X57
29 30 23
3x99
28 4 12
3*45
Regulus
E.
2870
66 32 13
2883
6 4 59 33
2896
63 27 9
2909
26
Suh
W.
114 5 31
3331
115 29 7
334i
116 52 31
335*
118 15 42
336*i
1
a Arietis
W.
57 31 16
2989
59 1 43
*997
60 32
3005
62 2 7
3012 ,
Saturn
W.
54 3* * 6
2987
56 2 45
*995
57 l l i
45 38 16
3004
59 3 1*
47 8 15
28 54 30
3012 |
Jupiter
W.
42 37 45
2993
44 8 6
3002
301 1
30*© ,
Aldebaran W.
24 25 57
3034
25 55 27
3033
27 24 59
3034
3035
1
Pollux
E.
21 31
55 48 58
3602
19 50 59
3718
18 34 31
3860
17 20 31
4038,
Regulus
E.
2966
54 18 2
2977
52 47 20
2987
51 16 51
*997j
1
1
Spica
E.
109 38 27
2938
108 6 56
*947
106 35 37
*957
105 4 30
2965
1
*7
Sun
W.
125 8 55
34°7
126 31 4
3415
1*7 53 4
34*3
129 14 55
3430
1
a Arietis
W.
69 30 32
3045
70 59 49
3051
72 28 59
3056
73 58 2
3061
Saturn
w.
60 31 26
3048
68 39
3<>55
69 29 44
3061
70 58 41
3066
1
Jupiter
w.
54 35 35
3058
56 4 36
3065
57 33 *9
3071
59 * 14
3078
'
Aldebaran W.
36 21 22
3050
37 50 33
3053
39 *9 4°
3056
40 48 43
3060
1
I
Regulus
E.
43 47 29
3045
42 18 12
3053
40 49 5
3063
39 20 10
3071
Spica
E.
97 31 *7
3004
96 1 19
3010
94 3 1 18
3016
93 * 25
3022 (
28
Sun
W.
136 2 10
81 21 47
3463
137 23 15
3470
138 44 13
3476
140 5 4
3481
1
a Arietis
W.
3085
82 50 16
3088
84 18 41
3091
85 47 2
3095 |
1
Saturn
W.
78 21 52
3091
79 50 13
67 52 26
3095
81 18 29
3097
82 46 42
3101.
i
Jupiter
W.
66 24 18
3x01
3106
69 20 28
3109
70 48 27
3113
1
Aldebaran W.
48 12 56
3075
49 4i 36
28 5 56
3078
51 10 12
3080
52 38 46
3082 |
!
Mars
W.
26 40 20
3228
3225
29 3' 35
3**3
30 57 17
3221 '
i
1
Regulus
E.
31 58 21
3119
30 30 34
84 4 25
3130
29 3 1
3142
27 35 42
3 "54
1 -
Spica
E.
85 33 4 1 3046
3051
82 35 15
3054
81 6 9
3057,
Digitized by
Google
38
MARCH, 1882.
AT APPARENT NOON.
I
O,
s
Apparent
Bight Ascension.
THE SUN'S
Var.
in
1 hour.
Apparent
Declination.
Var.
in
1 hour.
Sidereal
Time of
the Semi-
diameter
passing
the
Meridian.*
Equation of
Time,
to be
added to
Apparent
Time.
Var.
in
1 hour.
Wed.
Thur.
Frid.
Sat
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid,
Sat.
Sun.
Mon.
Tues.
I Wed.
,Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur,
Frid.
Sat
h m a
22 49 18*14
22 53 2*37
22 56 46*10
23 o 29-35
23 4 12-15
23 7 54-52
23 II 36*48
23 15 18-06
23 18 59*28
23 22 40*16
23 26 20*72
23 30 0-99
23 33 40-99
23 37 20-74
23 41 0-25
*3 44 39 55
23 48 18*65
23 51 57*57
23 55 36-32
23 59 14*92
o 2 53*40
o 6 31*76
O 10 10*02
o 13 48*20
o 17 26*32
O 21 4*40
o 24 42*45
o 28 20-50
o 31 58-57
o 35 36-67
o 39 1483
o 42 53-07
■
9*354
9*333
9-312
9*293
9**74
9*257
9*240
9225
9*210
9*197
9*184
9*172
9*161
9*151
9*142
9**33
9*125
9*xi8
9*iii
9* 106
9*101
9*096
9*093
9*090
9*088
9*086
9-085
9*086
9*087
9*089
9*092
9*095
.7 30 130
7 7 22*6
6 44 25*4
6 21 22*6
5 58 M-s
5 35 i'5
5 " 44*o
4 48 22
4 H 5*5
4 1 *7 # 9
3 37 559
3 14 21*2
2 50 44*2
2 27 5*3
2 3 24*7
i 39 43*0
1 16 o*6
o 52 17*8
o 28 35*0
S.o 4 52*6
N.o 18 49*0
42 29*5
1 6 8-4
1 29 45*4
1 53 20*2
2 16 52*4
2 40 21*5
3 3 47*4
3 27 9*6
3 50 27*8
4 13 4i # 7
N.4 36 50*9
*
57'°°
57-26
57*50
57*73
57*94
58-14
58-32
58*48
58-63
5«*77
58-89
58-99
59-08
5916
59**1
59**5
59-27
59-28
59'*7
59**5
5921
59*15
59-08
59*00
58*90
58*78
58*65
58*50
58*34
58-17
57*9«
57*78
m s
5-41
5-33
5*26
5*20
513
5-07
5-oi
4*95
4*9°
4-85
4-80
4-76
4-68
464
4*61
4-58
455
4*53
451
4*49
4-47
446
446
4 '45
445
4*45
4*45
446
4*47
4-48
4'SO
12 30*82
12 18-53
12 5-74
11 52 '48
11 38*76
11 24*62
11 10*07
10 55*14
10 39*84
10 24*21
10 8*26
9 52*03
9 355*
9 1876
9 177
I 44'57
8 27*16
8 9'57
7 51*82
7 33*9*
7 I5-89
6 57*75
6 39*5i
6 21*19
6 2*81
5 44'3»
5 *5*93
5 7*48
4 49*<>4
4 30*64
4 12:30
3 54*o4
S
0*50I
0*523
0*543
0*562
0-580
0*598
0*614
0-630
0*644
0*658
0*670
0*682
0*693
0*703
0*712
0*721
0*729
0*736
o*743
o-749
0*754
0*758
0*762
0*765
0*767
0*768
0*769
0*769
0-768
0-765
0*762
0*759
•Mea* Time of the Semidiameter passing may be found by subtracting o« • 18 from the Sidereal Time.
Digitized by
Got
o
II.
MARCH, 1882.
39
AT MEAN NOON.
I
6*
p
Wed.
Thar.
Frid.
Sat
Sun.
Mod.
Taee.
Wed.
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
Sun.
Moo.
Tues.
Wed.
Thar.
Frid.
Sat
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
o
I
10
11
12
*3
«5
16
*7
18
*9
20
21
22
«3
24
THE SUN'S
Apparent
Right Ascension.
Apparent
Declination.
Semi-
diameter.*
Equation of
Time,
to be
Bvbtracted
from
Mean
Time,
27
28
29
30
3*
3*
h m •
22 49 16*19
22 53 0*45
22 56 44*22
23 o 27*51
23 4 io'3S
23 7 52-76
23 11 34*76
23 15 10-38
23 18 5764
23 22 38*56
23 26 19*17
23 29 59*49
23 33 39'53
23 37 10-32
23 40 58-88
23 44 38*22
23 48 17*37
23 51 5633
*3 55 35^3
23 59 13-78
o 2 52*30
o 6 30*70
o 10 9*01
o 13 47*24
o 17 25*41
o 21 3*53
o 24 41*63
o 28 19*72
o 31 57-85
o 35 35*91
o 39 14*19
o / *
7 30 25*8
7 7 34'4
6 44 370
6 21 34*0
5 58 *5'7
5 35 «'6
5 " 54'9
4 48 33'o
4*5 7'3
4 1 381
3 38 5'9
3 H 3i*°
2 50 537
2 27 14*4.
2 3 336
1 39 51*7
1 16 8-
o 52 25-
o 28 42-8
o 5 0-1
N. o 18 41*8
42 22*6
1 6 1*8
1 29 39*2
1 s i x l s
2 16 46*7
2 40 16*2
3 3 42*4
3 *7 4*9
3 50 *3
4 13 37
o 42 52*48 N. 4 36 47-1
1
*
16
10*2
16
16
99
9 # 7
16
16
16
9*4
16
16
16
8-i
16
16
7*6
16
73
16
16
16
7*i
6*8
65
16
16
16
6'2
6*o
5*7
16
5*4
16
5*4
16
•T*
16
4*9
16
46
16
4'3
16
4-i
16
3*8
16
3*5
lb
33
16
3*o
16
2-7
16
*4
16
2*2
16
1-9
12 30*92
12 18*64
12 5*85
11 52*5
II 38*8
11 24*73
11 io* 18
10 55*25
10 39*96
10 24*31
10 8*38
9 5** 14
9 35*63
9 18*8
9 i*8
8 44*67
8 27*26
8 967
5192
34*02
15-98
57-83
39 59
21*27
2*«8
4445
26*00
7*54
49* 10
30*70
1235
Sidereal Time.
km.
22 36 45*27
22 40 41*82
22 44 38*37
22 48 34*92
22 52 31*48
22 56 28*03
23
23
23
24*58
A 21*13
8 17*69
23 12 14*24
23 16 10*79
23 20 7*34
23 24 3*90
23 28 0*45
23 31 57*00
3 S4-09
»3 35 53 55
23 39 50*10
23 43 46*66
23 47 43*21
23 51 39* 76
23 55 3631
23 59 32*87
o 3 29*42
o 7 25*97
o 11 22*52
o 15 19*07
o 19 15*63
o 23 12*18
o 27 8*
o 31 5*
o 35 1*84
■11
o 38 58*39
The Semidiameter for Apparent Noon may be assumed the same as that for Mean Noon.
Digitized by VjOOQ IC
4Q
MARCH, 1882.
in.
MEAN TIME.
THE SUN'S
Apparent
Longitude.
Noon.
Latitude.
Noon,
Logarithi
of the
Radius
Vector
of the Earth.
Noon.
Transit
of the
First Point
of
Aries.
THE MOON'S
Semidiameter.
Horizontal Parallax,
Noon. Midnight.
Noon.
MidniglU,
IO
II
12
'3
H
*5
16
\i
19
20
21
22
23
24
*5
26
27
28
29
30
31
32
340 50 12
341 50 20*0
342 50 25-4
343 50 *8'9
344 So 3°'4
345 50 30
346 50 28*0
347 50 24-1
348 50 18 - 5
349 So "•*
350 50 2-3
35i 49 5* # 7
35* 49 39 '5
353 49 *5*6
354 49 ">-o
355 48 5* .
356 48 33-6
357 48 "*5
358 47 49 '5
359 47 H'5
46 57*4
1 46 28
2 45 56*8
3 45 23 m
4 44 47' 1
5 44 8'8
6 43 28*2
6S.
0*13
0*19
0*23
0*25
0*23
0*19
7 4* 45 '3
8 42 0*1
9 4i "5
10 40 22 '7
11 39 30-7
0*14
S.o*o6
N.0'04
0*14
0*26
o*39
0*50
062
0*72
0-78
o\8i
o-8o
0*76
o-68
0-58
o'45
0-32
0*18
N.o'05
S.C07
o*i8
0*26
0*32
0-36
0-39
8.0*38
9-9962497
•9963578
•9964674
9-9965785
996691 1
9968052
9*9969206
•9970375
9971557
9-9972750
9973953
9975166
9-9976387
•9977613
•9978842
9-9980073
9981304
9982534
9-9983762
9984987
9986209
9-9987428
9988645
9989861
h m 8
1 23 IT
i 19 5-1
i 15 92
I II 13-38
I 7 17*47
I 3 21*56
o 59 25-66
o 55 *9'7
o 51 33' 8 <
o 47 37'94
o 43 42-03
o 39 46
'12
o 35 50*22
o 31 54-31
o 27 58*41
o 24 2*50
o 20 6*59
o 16 10*69
o 12 14-78
o 8 i8'~
o 4 22*97
{;
n f*
9-9991077
999**95
99935 '3
9*9994733
9995957
•9997185
•9998416
9-9999651
23 52 35*25
23 48 39*34
*3 44 43*43
23 4° 47*53
23 36 51-62
23 32 55-71
23 28 59-80
23 25 3-90
23 21 7-99
23 17 12*09
4 46-6
4 44*
4 43*4
4 44'
4 46'
4 5o*o
4 54*8
5 11
5 8-9
5 18-3
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54 20-6
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60 32-8
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54 2-2
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54 2-9
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55 »5/i
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56 23/7
57 6-3
57 53*4
58 42-8
59 3»*3
60 14-6
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61 6-3
61 6-8
60 48*4
60 13-2
59 25*2
58 29-8
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56 37*7i
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54 37'7
54 i6*5
54 4*8
54 «'7
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54 >7*2
Digitized by
o
IV.
MARCH, 1882.
MEAN TIME.
g
S
THE MOON'S
10
11
12
*3
14
»5
16
»7
18
19
20
21
22
23
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26
27
28
29
30
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134 20 27-7
146 12 13'5
158 5 10*2
170 o 40*6
181 59 5 6 ' 1
194 4 14-0
206 15 12-3
218 35 1-4
231 6 29*0
245 52 56 4
250 58 2*0
270 25 14-4
284 17 10*1
298 34 41*0
200 8 45*8
212 23 50*9
224 49
0-9
3 i| 16
328 16 7
343 * 6 47*4
358 37 41*2
5 i-6
13 38 5'8
28 18
4* 33 44'9
56 19 56
69 37 44' 7
82 29 46*5
95 o 8-3
107 13 39*o
119 15 15-3
131 9 390
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154 52 49-0
166 47 528
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16 17*7
164 2 31 '7
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250 22 55*8
263 38 40-8
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320 44 9-9
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1 50 i8'4
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22*4
16 35-7
17 29-4
18 25*1
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23-4
24-4
25-4
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20 18*9
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26-4
27-4
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5-0
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3 40-2
4 34'8
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3 16 19-3
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6*o
l'°
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4 56 56-5
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7 53*'
8 37'i
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130
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19 30
20 15
20 58
21 40
22 22
23 3
Digitized by
Google
42
1UA
R\jI
*,
IOOZ.
v -
MEAN TIME.
1
THE MOON'S EIGHT ASCENSI
ON AND I
)ECL1
[NATION.
I
K
Declination.
Vtur.
lnio m .
i
'.
Declination.
Var.
into-.
Wedhesday I.
Fbidai
' 3-
o
h m s
81457-58
8
I9-787
1 it
N.152724-I
*
78-90
h m s
9 47 0#6 3
94852-72
18*688
9 n
N. 8 7 30-6
9
10186
I
8 1656*21
I9-758
15 1928-8
79*54
I
18-674
75718*5
102-18
2
8 1854-67
19*728
15 II 296
80-17
2
95044-72
95236-64
18-660
7 47 4-5
73648-7
102-48
3
8 2052-95
19*698
15 326*8
80*78
3
18-647
102-79
4
822 51*05
19*670
14 55 20*2
81*40
4
95428-48
9 5620*24
18-633
726 31*0
103*09
i
82448*99
82646-75
19-642
1447 10*0
82*01
5
18-620
7 16 n-6
103-38
19-613
I4 38 56-I
82*61
6
958 11*92
18*607
7 5 50'4
103-67
7
82844*34
19-585
143038-7
83-19
7
10 3*53
18-595
655 27-6
103-94
8
83041-77
19*557
14 22 17*8
83-78
8
10 155-06
18-583
* 4S I' 1
63436-9
104*22
9
83239-03
19-529
I4I3 53'3
84-37
9
10 3 4^*53
18-572
104*49
10
83436-12
19-502
14 525*4
84-94
10
10 5 37-93
18-562
624 9*2
104*75
ii
83633-05
19 * 474
135654*0
85-51
11
10 729*27
18-551
61339-9
105*00
12
83829-81
19*447
134819-3
86-07
12
10 920*54
18-540
6 3 9-2
105*24
*3
84026-^1
84222-86
19-421
I3394I-2
86*62
13
10 11 11*75
18531
55237-0
105-48
H
*9*395
13 3059*9
87-16
H
10 13 2*91
18522
5 42 3*4
53128-3
105-72
15
84419-15
19-368
I3 22I5*3
87-71
15
10 145402
10 1645*07
18513
105*95
16
84615-28
19-342
13 1327*4
88 24
16
18-504
5 2052-0
106-17
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848 II *2&
19*317
13 436*4
88-77
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10 18 36*07
i8-49*5
5 10 H-3
106*39
850 7'08
19-292
12 5542-2
89-29
102027*02
18-489
459 35-3
44855-2
43813-8
106-59
*9
852 2*76
19-267
124644-0
123744*6
89*80
19
1022 17*94
1024 8-81
18*482
106 • 79
20
85358-29
19-242
90*30
20
18-475
106 -99
21
85553-67
19*218
12 2841*3
90*81
21
1025 5964
18-468
42731*3
107*18
22
85748-91
19*194
12 19 34*9
N.12 1025*6
91-31
22
102750*43
18*462
41647*7
107-36
23
8 5944-00
19-170
91-79
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102941*19
18457
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107*53
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AT 2.
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9 '3 8 '95
19-147
N.12 1 13-4
115158-3
92-27
10 31 31*92
18-452
N. 355173
34430-6
107-70
I
9 3 33'7 6
19-124
92-75
1
1033 22-62
18-447
107-86
2
9 5 2 8*44
19*102
11 42 40*4
93-22
2
10351329
18 * 443
3 33 43-°
108*02
3
9 722*98
19-078
113319-7
93*68
3
1037 3*94
18-440
32254*4
108*17
4
9 9I7-38
9 1 1 1 1 * 66
19-057
11 23563
94*« 3
4
103854*57
18-437
312 5-0
108*31
5
19*035
11 14 30*2
94*58
5
104045*18
x8-433
3 1 14-7
108-44
6
913 5-80
19-013
n 5 1-4
95-03
6
104235-77
18-431
2 5023-7
108-57
7
8
91459-82
91653-71
18992
18972
105529*0
104555-8
95*47
95-89
7
8
104426*35
1046 16*92
18-429
18-428
239 319
2 28 39*4
108-69
108-81
9
91847-48
18-951
1036 19-2
96-31
9
1048 7*48
18 -.427
2 1746-2
108*92
10
92041-12
18-931
102640*1
96-73
10
104958-04
18-426
2 652-3
109*02
11
92234-65
18*912
101658*5
97**3
11
105148-59
18-425
155 57*9
109*12
12
9 2428*06
18-892
10 714*5
97*53
12
105339-14
18-425
145 2*9
109*21
13
9 2621*35
18-873
95728*1
97*93
13
10 55 29-69
18-426
134 7*4
109*29
H
92814-53
18-855
947 39-3
93748*2
98-32
14
105720-25
18-427
1 23 11-4
109'37
IS
930 7*61
18*837
9 8 '7o
15
1059 I0 '82
18-4*9
1 12 lyo
109-43
16
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99- 08
16
11 1 1-40
18-431
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109-50
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9 33 53-43
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18*801
18-783
91759*3
9 8 i-5
99*45
99*82
17
18
11 251-99
11 442*59
11 633-21
18-433
18435
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03923-5
02825*7
109*56
109*61
19
93738*83
18-767
858 1-5
100*18
19
i8-439
109-65
20
93931*38
94123*83
18-750
8 47 59-4
100-53
20
n 823-86
18-443
1727-7
109-68
21
18-734
83755*2
100-87
21
11 10 14-53
18-447
N. 620*5
S. 428*9
109-72
22
943 l6 ' l 9
18719
82749*0
101-20
22
11 12 5*22
18452
109*74
2 3
9 45 8'46
9 47 0-63
18*703
8 1740*8
101-53
23
111355-95
18-457
01527*4
109-76
24
18-688
N. 8 730-6
101*86
24
11 15 46-70
18*462
S. 02626-0
109-77
Digitized by
Google
VI.
MARCH,
1882.
43
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
I
Bight
Ascension.
Var.
In io*».
Declination.
Yar.
inio-.
n
Bight
Ascension.
Var.
in'io**.
Declination.
Var.
inio**.
SUKDAY 5.
Tuesday 7.
h m • ■
$ 9 9
h m • ■
/ 9 9
O
II 1546*70
18*462
S. 02626-0
109-77
O
1245 52'8l
19*250
S. 9 1 23*9
102 '08
I
II 17 37-49
II 19 28*31
18-467
03724*6
04823*2
109-77
I
124748-39
19*277
9 " 354
101*74
2
18-474
109-77
2
124944*14
19*305
921 44*8
101*40
3
II 21 I9'l8
18-482
05921*8
109*76
3
12 51 40*05
19*333
931 52*2
101*05
4
II 23 10*09
18488
I 1020*3
109-74
4
125336*14
19*362
94157-4
100*68
1
II 25 I*04
18-496
1 21 18*7
109-72
5
125532*39
12 5728*82
19*390
952 0-4
100*32
II 2642*04
18-504
1 32 16-9
109-68
6
19*419
IO 2 1*2
99*94
1
II 2843*09
18-512
14314-9
109-65
1
I2 59 25*42
19*448
IOII59*7
99*56
113034*19
18*522
15412*7
109*61
13 I 22*20
19-478
102155*9
99*17
9
II 32 2S'35
18532
2 510*2
109-55
9
13 319*16
13 5165O
13 7i3" B 3
19-508
103149*7
98*77
10
II34I6-57
II 36 7*85
18542
2 16 7*3
109-49
10
19*539
I0 4I4I'I
98*37
11
18-552
227 4*1
238 0-5
109-43
11
19-571
10 51 30*1
97*95
12
1137 59*20
18-563
109-36
12
13 9"-*5
19*602
11 i 16*5
97*5*
l S
II 3950*61
i8*574
24856-4
109*28
13
13 11 8-85
19*633
11 11 0-4
11 2041*6
97*09
14
II 41 42*09
18*586
25951*9
3 1046-8
109*20
h
13 13 6-75
13 15 4*84
19*666
96*65
IS
II43 33-64
18598
109*11
is
19-698
11 3020*2
96*21
16
II45 25*27
II 47 16*98
18-612
3 21 41*2
109*01
16
13 17 3-13
19*73*
113956*1
95*76
\l
18-624
33234*9
108-90
:j
13 19 1*62
19-765
114029*3
115859-6
95*29
11 49 8*76
18-637
343 28*0
108-78
1321 0*31
19-798
94-82
*9
11 51 o.'fij
11 52 52*58
11 5444*03
18-652
35420*3
108-66
19
13 22 59*20
132458-30
132657*60
19-832
12 827-1
94*35
20
18-667
% 416 2-8
108-54
20
19-867
12 1751*8
93*86
21
18682
108-41
21
19-901
1227 13*4
12 36 32*1
93*36
22 11 5636*76
18*697
42652-8
108*27
22
13 2857*11
13 30 56- 83
19-936
92*87
23 jii 58 28-99 18*712
S. 4 37 4*'o
108' 12
23
19-972
S.I2 45 47-8
9** 35
MOHDJ
T 6.
Wedhes
DAY 8.
12 021*31
18-728
S. 448 30*2
107*96
133256-77
20 • 008
S.I255 0-3
91*83
I
12 2 13*73
12 4 0-25
18-745
459 175
510 3-8
107-80
I
13345692
20-043
*3 4 9*7
91*31
2
18-762
107-63
2
13 36 5720
133857-88
20-080
13 13 16*0
90*78
3
12 558*88
18*780
52049-1
107*46
3
20*117
13 22 10*0
I3 3Il8*7
90*23
4
12 751*61
18798
53135-3
542 16-4
107-28
4
134058*69
20153
89*68
5
,2 944*46
18-817
107-08
5
134259*72
20*191
I340I5*I
89*12
6
12 11 37*41
18835
5S*58-3
6 3 30*0
6 14 18-5
106-88
6
1345 0-98
20*229
1349 8*i
88*55
j
12 13 30*48
12 15 *3*o7
12 17 16*98
18-855
106-68
1
1347 2-47
1349 4-18
13 51 6-13
20*267
'3 57 577
14 643-8
14 15 26*4
87*97
18-875
106-47
20*305
87*39
9
18895
62456*7
106*25
9
20*343
86* 80
10
12 19 10-41
18916
6 35 335
646 8-9
106-oa
10
1353 8*30
20-382
1424 5*4
86*20
11
12 21 3*97
12 22 57*66
18*937
105*78
11
135510-71
20*422
143240*8
85*59
12
18-959
65642*9
»05*55
12
135713*36
20'46l
144112*5
84*98
J 3
12 2451-48
122645*43
18-981
7 7i5'5
105*30
13
135916-24
2O'50O
144940*5
84'35
14
19-003
71746-5
728 16-0
105-04
h
14 1 19-36
20*540
1458 4*7
83-71
15
1228 39*51
19*025
104*78
15
14 322*72
20*580
15 625*0
83*07
16
123033*73
12 32 28*10
19*049
73843*9
104-51
16
14 526*32
20*621
151441*5
82*42
li
19-073
74910*1
104-23
',:
14 7 30- 17
14 934-26
141138*59
20*662
1522540
81*76
12 3422*61
12 30 17*26
19-097
7 59 34*7
5 95 r s
82018-5
103-95
20' 702
15 31 2*6
8x*io
*9
19-121
103-65
*9
20-742
1539 7*2
80*42
20
12 38 12 *o6
19-147
x °3*35
20
Hi34ri7
14 1548-00
20-784
1547 7*6
79*73
21
1240 7*02
19* "73
83037*7
103-04
21
20*826
16 256*1
79*04
22
1242 2*13
19-198
84055*0
102-73
22
141753*08
20*868
78-34
23
124357*39
1245 52*81
19-223
851 10-5
102*41
23
141958*41
20*909
16 1044*0
77 63
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19-250
S. 9 1 23*9
102*08
24
1422 399
20*951
3.161827-6
76-91
Digitized by
Google
44
MARCH, 1882.
VII.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Right
Ascension.
Var.
inio-.
Declination.
Var.
in 10".
1
Right
Ascension.
Var.
inio*».
Declination. j n lo i
Thursday 9.
Satuedat II.
h m t
1
t * *
h m s s
/ n
O
1422 3-09
1424 9*82
1426 15-91
20
•951
S.16 1827*6
76*91
16 737-17
23*008
S.2048 36' II 31*46
I
20
•993
1626 6-0
16 3341*0
76*18
I
16 9 55*34
23*048
205147*5 31*33
2
21
*037
75*44
2
l6 12 13*75
23*087
20 54 52 - 1
30*20
3
142822*26
21
•O79
1641 12*2
74*69
3
161432-39
23*126
20 5749-9
21 040-8
29*06
4
14 3028*86
21
'122
1648 38-1
73*94
4
l6 1651*26
23*164
27*91
I
H 3235*72
21
•164
165559*5
73*18
5
l6 19 10*36
23*202
21 324*8
21 6 £'0
26-77
143442-83
21
•207
17 3 i6*3
72*42
6
l6 21 29*69
23-240
25*61
7
14 3650*21
21
•251
17 1028-5
71*64
7
162349*24
1626 9*01
23*277
21 832*1
24*43
8
14 38 57^4
21
•293
ly 17 36*0
70*85
8
23-313
21 10 55*2
23*27
9
1441 5-73
144313-88
21
*337
172438*7
70*05
9
1628 29*00
23-350
21 13 u*3
22-09
10
21
•381
17 31 36*6
69*25
10
163049*21
23*386
21 15 20*3
20' 90
11
144522-30
21
•424
173829*7
68*43
11
1633 9-63
23*422
21 I722'I
*9'7*
12
144730-97
21
•468
174517-8
67-61
12
1635 30*27
a3-458
21 19 16*8
18*52
13
144939-91
21
512
1752 i-o
66 78
13
163751*12
23492
2121 4*3
21 22 44*6
17*32
14
14 51 49- II
I4 53 58-57
21
•555
175839-2
65*94
14
1640 12-17
23*525
16-10
15
21
•599
18 5 12-3
65*09
15
164233-42
»3'559
212417*5
14-88
16
1456 8-30
21
•643
18 II 40*3
6423
16
164454-88
23*592
21 2543*2
13-67
l 7
1458 18*29
21
-687
18 18 3*1
63*37
l 7
164716-53
23*625
2127 1-5
1243
18
15 028-54
21
•731
18 2420*7
62*50
18
164938-38
23*657
21 28 12*4
11*20
19
15 239-06
21
'775
18 30 33-1
6162
19
1652 0*42
23*689
21 29 I5-9
9'97
20
15 449-84
21
'819
18 3640-1
60-73
20
165422*65
23*721
21 30 I2'0
8*73
21
15 7 089
21
•863
184241*8
59'«3
21
165645*07
23*752
21 31 0*6
7-48
22
15 912*20
21
•908
. 184838*0
58*92
22
1659 7'«7
23*782
21 31 41*7
6*22
*3
15 II 23*7821
•952
S. 18 54 28*8' 58*01
23
17 130-4523-811
S.2I 32 15*2
4'95
Fbidai
I IO.
SUHDAl
r 12.
15 13 35*62
21
995
S. 19 014*1
57*08
O
17 616-53
23*840
S.21 3241*1
369
1
15 I5 47-72
22
•039
19 553-8
5615
I
23*869
21 3259*5
2*43
2
15 18 0*09
22
•083
19 II 27*9
55*21
2
17 839*83
23*897
21 33 10*2
115
3
15 20 12*72
22
127
191656*3
54*26
3
1711 3*29
23-924
213313*3
0*13
4
15 22 25-61
22
•170
1922 19-0
53*30
4
17 13 26*92
23-952
2133 8-7
1*41
5
152438-76
22
-213
192735*9
5»'33
5
171550*71
23*978
21 32 56-4
2*70
6|i5 2652*17
22
•257
193247*0
5I-3-5
6
17 18 14*65
24*003
21 32 36*3
3'99
711529 5-85
8 1153119-78
22
•301
193752*2
50*38
1
1720 38*74
24*028
21 32 8*5
5*28
22
'343
194251*5
49*39
1723 2*98
24053
21 31 32*9
658
91*5 33 33*97
10 ^5 35 48*42
22
•387
194744-9
48*39
9
172527*37
24*077
2130405
21 29 58*3
7'88
22
•430
19 52 32*2
47*38
10
172751*90
24*100
9-18
11
1538 3*13
21
"473
195713*5
46-37
11
173016*57
24*123
21 28 59-3
io*49
12
15 40 l8'09
22
'5»5
20 148*6
45*34
12
173241*37
24*144
21 27 52-4
11-81
13
154233-31
22
"557
20 617*6
44*3*
13
1735 6* 3
24*166
21 2637-6
13*13
H
154448*78
22
• 600
20 I040'4
43 '*8
H
173731*36
24*188
21 25 14*9
14*44
15
'547 4'5I
22
'642
20 1456*9
42*23
15
17 39 5655
24*208
212344-5
2122 5*8
15*76
16
154920*48
22
•683
2019 7-1
41*17
16 1
1742 21*85
24*227
17*08
n
I5 5I36-7I
22
'7*5
2023 io*9
40*11
171
174447*27
24*246
21 20 19*3
18*41
18
I5 53 53-I8
22
•766
2027 8-4
39*04
18
1747 12*80
24*264
21 18 24-9
19-73
»9
1556 9*00
155826*87
22
'807
203059*4
37*96
19
174938-44
24*282
21 1622-5
21*06
20
22
'848
203443-9
36*87
20
1752 4*18
24*298
21 14 12*2
22*39
21
16 044*08
22
•889
20 38 21*9
35-78
21
17 54 30*02
24*314
21 11 53*8
23*72
22
16 3 1 -54
22
•930
204153-3
34-68
22
175655*95
24*330
21 927*5
25-05
2 3
16 5 19*24
22
•969
2045 i8*o
33*57
23
17 59 21*98
24-346
21 653*2
26*39
24
16 737-17
*3
•008
S.2048 36*1 32-46
24
18 1 48* 1024*360
S.21 4io*&
27-73
Digitized by
Google
VIII.
MARCH, 1 882,
45
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Right
Ascension.
Var.
Inio",
Declination.
Var.
inxo"
Monday 13.
1
9
10
11
12
*3
:i
18
19
20
21
22
*3
o
1
2
3
4
5
6
7
8
9
10
11
12
*3
14
15
16
17
18
'9
20
21
22
h m • ■
18 148*1024*360)8.
18 414*30
18 640-58
18 9 6-94
18 11 33-58
i8ii?q-88
18 13 59*85
18 1626*45
18 1853-07
18 21 19-70
182346-50
1820 13*29
182840-13
18 31 7-01
'! 33 33-93
1836 088
18382787
184054-88
1843 21*92
184548-97
1848 1605
185043-14
18 53 10-24
I8 55 37-35
1858 4 46
24*373
H-387
24-400
24*412
H'4»3
H'433
H"44»
H'45i
24-461
24-469
24' 477
24-483
24-489
24*495
24-500
24-504
24-508
24-5"
24-514
24-516
*4'5»7
24-518
24-518]
Tuesday
1 *
4 io-8
1 20*4
1
21
21
20 58 22
205515-7
20 52 1 - 2
204838-8
2045 8*;
2041 29-1
203745-;
203348-1
202946-3
202535-7
2021 17-2
20 1650*7
20 12 16*2
20
20
o3i-5
258-6!
525-78
752-87
19 101995
19 1247-01
19 15 14-06
19 1741-08
1920 8*o8
192235-05
1925 1-99
192728*90
192955-77
19 32 22'6o
*9 34 49 '39 24*4*2
193716-14
193942-85
1942 9- 50
1944 36-11
1947 2-66
194929*16
195155-60
195421-99
23 195648-31
«4M59 I 4 , S/
24-518
*4*5»7
24-5*6
24-514
24-512
24-509
24-506
24-502
24*497
24-492
24-487
24-482
24*475
24-468
24*455
H'447
H'438
24-430
24-421
24-412
24-403
24*393
24-382
14-372
S.
733*7
243-3
195745-0
195238-7
194724-5
1942 2*5
19 36 32*6
1930548
1925 91
14.
191915-7
19 13 14
19 7 5
10 048
185424-3
184752
1841 12-5
183425-1
18 27 30
182027-5
181317-5
18 559-9
175834-9
1751 2
174322-7
173535-6
i7*74i
17 19 39
17 11 30
17 314
16 54 51
164621-4
163744-2
1629 0*0
1620 9-0
*
2773
29*06
3©'39
3«'74
33-08
34-41
35 '75
37:08
38-42
39*75
41-09
42*43
43*75
45-08
46 -4*
47*74
49* 06
50-38
51-71
53-02
54*33
55**54
56-96,
58-26
59*55
60-85
62*14
63-43
64-72
65-98
67-26
68-53
69-80
71-05
72-30
73*55
74*78
76-02
77**4
78-46
79-67
80 -88
82-07
83-26
84-44
85*62
86-78
87-93
89*08
Right
Ascension.
Var.
In m».
Declination.
Var.
in io".
Wednesday 15.
h m s t o
195914*57
20 140*77
24-372
24*361
20 4 6*9024*349
20 632*96
20 858-05
20 II 24*88
20 Ij 50*73
20 10 16*51
20 l8 42'2I
20 21 7*84
6
2023 3V3
2025 58-8
202824*25
203049*56
203314*79
203539-94
2038 5*oi
204029*99
2042 54*09
204519*71
204744*44
2050 9*08
2052 33*64
205458-12
24*337
*4*327
24*3iS
24-303
24*290
24*277
24-265
24-252
24-238
24-225
24*212
24-198
24-185
24* 171
24*157
*4*i43
24-129
24-114
24*100
24*087
24-073
S. 1620 9*o
16 11 11-1
16 2 6*4
1552550
1543368
15 34 I2'0
I5244O
15 15 2
15 5l8*4
I4 55 27-7
I445 30-7
143527-5
I425 17*8
14 15 2-1
14 440-3
I3 5412-5
I343 38-8
13 32 592
13 22 13-8
13 II 22*7
13 026*0
124923*6
I238 I58
S.1227 2-6
Thursday 16.
205722
22-51
46-81
2059
21 2 11*03
21 435-16
21 659-21
21 923-17
21 11 47-04
21 14 10*83
21 1634-53
21 18 58-15
21 21 21-69
212345-14
21 26 8-51
21 28 31*80
21 3055*00
21 33 18-13
21 3541-18
21 38 4-14
21 4027*03
21 4249*85
214512*59
214735*25
214957*84
Bo
9
10
11
12
13
14
:s
\l
19
20
21
22
23 '21 52 20*
24 21 544* '
24*058
24-043
24*029
24-015
24*001
23*986
23*972
23^58
23 943
23-930
23*916
23*902
23*888
23-874
23-861
23*848
23- 834
23-821
23-809
23*797
23*783
23-77«
23*758
23*747
23*73*
S.I2 1544*0
12 4 20*1
II 52 51*1
II 41 17*0
11 29 37*8
11 1*7 53*7
11 6 4-7
1054 io*9
IO42 12*4
1030 9*3
1018 1-7
10 549-0
9 53 33
941 124
92847
91618
3 45
51 8
83827-9
82543-5
81255-4
8 o 3*7
747 8*6
73410-2
S. 721 85
89*08
90*22
91*34
92*47
93*58
94*68
95*77
96-86
97*92
98-98
00*03
01-07
02' IO
03*12
04-13
05 12
o6*ii
07-08
08*04
08-98
09-93
10-85
ix-75
12*65
13*54
14*41
15*26
i6*ii
16*94
17*76
18*57
19-36
20*13
20*89
21*64
22*38
23-10
23*80
24-49
25*17
25*83
26*47
27*09
27*71
28-32
28*90
29*46
30*01
30*55
Digitized by VjOOQ IC
4 6
MARCH, 1882.
IX.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Bight
Ascension.
Var.
inio-.
Declination.
Var.
in 10*.
O
I
2
3
4
1
9
to
II
12
H
IS
16
17
18
19
20
21
22
23
o
1
2
3
4
§
9
10
11
12
13
14
15
il
l 9
20
21
22
23
24
b m 1
21 5442*80
2157 5-18
215927-48
22 I49'72
22 4 1 1 * 8<
22 634*00
22 856*04
22 II l8'02
22 13 39*94
22 10 I '80
22 l8 23'6l
22 2045*36
22 23
22 25 2
22 2750*28
22 30 II '82
22 32 33
223454
22 37 l6
223937-52
224I 58*84
2244 20*12
224641-37
22 49 2*58
Fbidat I
S.
05
69
.76
•16
t
23-736
23-723
23*712
23*701
23*690
23*679
23*668
23*658
23-648
23*639
23*630
23*620
23*611
23-602
23'594
23*586
23*578
23*571
23-563
»3'557
23-550
23*544
23538
23-532
S.
Saturday
225123-75
22 53 44' 89*3' 522
23*526
2256 6-oi
22 58 27*10
23 048-16
23 3 9-19
23 530-21
23 751-20
23 10 12-18
231233-14
23 1454-08
23 17 15-01
231935-93
23 21 56*84
232417-74
23 26 38*64
232859-54
23 31 20*43
233341-3*
2336 2*21
23 3823-11
234044*01
2343 4-92
234525-84
234746-77
*V5i8
*3*5i3
23*508
23*504
23*501
23*497
23 '495
23*492
23-489
»3'487
23*486
23*484
23*483
23-483
23*483
23*482
23*482
23*482
23*483
23484
23*486
23-488
23-489
N.
721 8-5
7 8 3*6
6 54 55 # 7
64144-8
62831
6 15 14
6 1552
S48 33H
5 35 9
52142*4
5 813-4
45442*2
441 9*0
427 338
41356-7
4 017*8
34637
3 3*55
3 19 11
3 526
2 51 40
237 53-0
2 24 4'5
2 10 15*1
18.
I 56 24*8
I42 33*8
I 2842-I
i 1449*9
1 057-3
047 4'3
033 ii-i
o 19 17*8
o 524-4
o 828*9
22 22*0
O36 14
050 7
* 3 59
1 17 50
13141
14530-
1 59 19-
213 7-7
22654-5
24040-0
25424-3
3 8 7-2
3 21 48*
33528-
130*55
131*07
131*57
132*06
13253
132*98
13342
133-84
134-25
134-64
135-02
«35'37
135-70
136-02
136-33
136*62
13688
'37* 14
137-38
137-60
137-80
I37'99
138-16
138-31
138-44
i3*- 5 6
138-66
138*73
138*80
138*85
138*88
138*89
138*89
138-87
138-83
138-77
138-69
138*60
I38*49
13837
138*23
138*07
137*89
137-69
137*^1
137*27
137-02
136-75
136-48
W
Right Tar.
Ascension. ta x *"*
Declination.
Var.
inio".
Svvdat 19.
■ O / *
23-489 N. 3 35 28 «
»3-49i J49 6<
23*493 4 *4 2 '
23*497 4 16 16'
23*499 42948'
23*502 443 19 «
23-506 45646*
23-510 5 10 12*
23*513 5*3 35*
23-517 5 3 6 5 6 '
23*522 5 5°H'
23-526 6 3 29*
23-531 6 1042
23-536 62951*
23*541 64258'
23*547 656 2*
23553 7 9 *"
23558 72159-
*3-563 7 34 53*
23'57<> 7 47 43*
23*577 8 030*
23583 81313*
23-589 8255V
23*597 N. 8 38 28*
Monday 20.
044 15-9523*603^ 8 51
h m s
234746-77
2350 7-71
23 5228-66
23 54 49 63
23 57 10-62
23 59 31-62
o 1 52*64
o 4 13*69
o 634*76
o 855-8
o 11 16-97
o 13 38-11
o 15 59*28
o 18 20*48
02041-71
023 2-97
025 24-27
02745*60
o 30 6 * 96
032 28*36
03449-81
o 37 11*28
03932*79
04154*35
136*48
136-18
•35-87
•35-54
135-20
134-83
«34'45
134*06
133-66
13323
132-78
132-32
131*85
131-36
130-85
'30*33
129-79
12924
12868
128-09
12749
12688
126*26
125-62*
04637-59
04859-27
051 20-99
05342-76
056 4-57
058 26*42
048-31
31025
53224
7 54**7
10 16-35
1238-47
15 0-64
1722-85
1945-11
22 7*42
2429-77
26 52*16
23-610
23*617!
23*624
23*632;
23*6 3 8 )
23* 645
23*652,
23*661!
23*668;
23*676
23*683]
23*691
23*698;
23-706
23*7i4
23*722'
23-728;
23*736;
0*4124*95
9 3^8-
9*5 5*
9 28 11
94026*
95237-
10 444
10 1646
29 14-6023-743
31 37-0823-751
3359-6123-758
3622-1823-765
3844-7923-772
4i 7*4523-78o
102843-
1040 36*
10 52 24
11 4 7-
11 1546-
II 27 I
II 384
11 50 II
12 I 29
12 12 42
12 23 50
12 34 52
12 45 49
12 5640
13 7 26
13 18 5
N.i 3 2840
124-28
8 123*60
122-89
I22'l8
I2I-46
I20'7I
119*96
119-20
Il8*42
1I7-62
ii6-8i
115*99
115*16
114*32
13*47
7112*59
6|iii- 7 i
2*110*82
4
1
3
o
9
1
109-91
108 '99
108*07
107*13
106*18
105 * 22
Digitized by
Google
\.
MARCH, 1882.
4:
I _
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
Higbt
Ascension.
Var.
in 10*.
Declination.
Var.
in 10".
5* 1 Bight
j§ 1 Ascension.
Var.
in 10™.
Declination.
Var.
in io*.
Tuesday 21.
Thubsday 23.
h. m s 1
t *
h m 8 s
/ h n
O
141 7*45
13*780
N.13 2840*1
105*22
33537*21
23*793
N.I9 46 58-I
50*10
1
I 43 30- 15
23*787
13 39 8'5
104*24
I
3 37 59*94
23*783
1951 54*9
48*84
1 2
14552-89
23*793
134931*0
103*27
2
3 4022*60
23*772
195644-2
47*58
3
14815-67
23-799
13 59477
14 958*3
102*28
3
34245*^20
23*762
20 1 25*9
46*33
4
I 5038-48
23*806
101*27
4
3 45 7'74
23-750
20 6 o*i
45-07
5
153 1 '34
23813
1420 2*9
100*25
5
34730-20
23*738
20 1026*7
43'8i
. 6
15524-23
23-818
1430 1*3
14 39 53*6
99*23
6
349 5**59
23*726
20 1445*8
42-55
7
15747-16
23-824
98*20
7
35214-91
23*713
20 18 57-3
41*28
1 8
2 OIO-I2
23*830
H 49 39*7
97"i6
8
3 54 37* 14
23*698
2023 1 ' z
40*02
92a 33*12
23-836
1459 19-5
96*11
9
35659-29
23*685
2026 57*6
38*77
: 10 2 456*15
23-842
15 853*0
95*05
10
35921*36
23*671
20 3046*4
37-51
11 2 719-22
23*847
15 1820*1
93*98
11
4 1 43*34
23*655
20 3427-7
36-25
. I2 |
2 942'3I
23*851
15 2740*8
92*91
12
4 4 5*22
23*639
2038 1*4
34-99
13
2 12 5-43
2 14 28^58
23*856
1536 550
9183
*3
4 627-01
23*623
2041 27*6
33*73
i 1 *
23*861
1546 2*7
90*73
14
4 848*70
23*607
20 44 46 * 2
32*47
«5
2 1651*76
23*864
15 55 3*7
16 358*2
89*63
15
4 11 10*29
23*590
204757*2
31*22
16
2 19 14-95
2 21 38-17
23-868
88*52
16
41331-78
23-572
2051 o-8
29-97
17
23*872
16 1246*0
87-40
17
41553-16
23*553
20 53 56*8
28*70
18
2 24 I'4I
23*875
1621 27-0
86*27
18
4 18 14*42
23*534
205645*2
27*45
i9
2 2624*67
23*878
1630 1-3
85*14
19
42035*57
23*516
20 59 26*2
26*21
20
22847-95
23*881
163828*7
84*01
20
4 22 56*61
23*496
21 1597
24*96
21
2 31 11-24
2*3*883
164649*4
82-87
21
4251752
42738*31
23*475
21 425*7
23-72
J22
2 33 34' 54
23*884
1655 3*1
81*71
22
23 455
21 644-3
22*48
*3
2355785
23-886
N.17 3 99
80*55
23
42958*98
23*433
N.21 855-4
21*23
WlDVESI
>AY 22.
Feidai
24.
2 3821-17
23-888
N.1711 9-7
79*38
43219-51
23*411
N.21 1059*0
19*98
I
24044-50
23*888
1719 2*5
78*22
I
4 34 39*91
23*389
21 12 55-2
18-75
2
243 7-83
24531-16
23*888
17 2648*3
77*04
2
437 0-18
23-366
21 1444*0
21 1625*4
17*52
3
23*889
17 3427-0
75*86
3
43920-30
23-342
16*28
4
24754-50
2 5017-83
23*889
174158*6
74*68
4
44140*28
23*318
211759-4
15*05
5
23888
174923*1
73-48
5
444 0*12
446 19*81
23*294
21 1926*0
13*83
6
25241-15
23*887
175640-4
72-28
6
23*269
21 2045-3
I2'6l
1
*5S 4*47
25727-78
23*886
18 350-5
71-08
7
44^39*35
23*244
21 21 57-3
u-39
23*884
18 1053-4
69*88
8
45058-74
23*218
2123 2*0
10-18
9
2 5951*08
23*882
18 1749*0
68*67
9
45317-97
23*192
212359-4
8*97
10
3 214-36
3 4 37*62
23*878
182437-4
1831 18*4
67-45
10
4 55 37*o4
23*165
21 2449-6
7*76
1 fI
23*875
66*23
11
4 57 55*95
23*138
21 25 32*5
6-55
1 12
3 7 o-86
23*872
18 3752*1
65*01
12
5 014-70
23*111
2126 8*2
5'35
13
3 924*08
23*868
1844 18*5
63*78
13
5 233-28
23*082
21 26 36*7
4 *i6
H
3 1147-28
23-864
18 50 375
62-54
14
5 45** 6 9
23*054
21 26 58*1
2*97
15
3 *4 IO *45
31633-58
3 1856*69
23-858
18 5649-0
61*31
*5
5 7 9*93
23*025
21 27 12*3
1*78
16
*3853
19 253-2
60-08
16
5 9*7*99
22*995
f 212719*5
o*6o
:i
23*848
19 850*0
58-84
17
51145-87
22*965
21 27 19*5
0*58
321 19-75
23-841
191439*3
57'6o
18
5H 3*57
22*935
21 27 12*5
i*75
*9
32342-78
3 26 5-76
23*834
192021*2
56*36
19
5 1621*09
22*905
21 26 58*5
2*92
20
23*827
1925 556
5511
20
51838*45
52055-58
22*874
21 26 37*5
4-08
21
32828-70
23*819
19 31 22*5
53*5
21
22*843
2126 9-5
5*24
22
33051-59
23*811
19 3641*8
52*60
22
523 12-54
22'8ll
21 25 34*6
6*40
*3
3 33 I 4*43
23*802
I94I53*7
N.I946581
51*36
23
52529*31
52745-88
22*778
21 24 52-7
7*55
*4
3 3537* 1
23-793
50*10
24
22*746
N.2i 24 4*o
8*68
Digitized by
Google
48
MARCH,
1882.
XI.
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
1
Right
Ascension.
Var.
in 10*.
Declination.
Var.
inio->.
1
W
Bight
Ascension.
Var.
inio-.
Declination.
Var.
inio-*.
Saturday 25.
MOKDAY 27.
h m ■ s
5 2745*88 22*746
i *
N.21 24 4*0
8*68
hot
7124367
s
20-939
/ «
N.1842 8-6
*
56*26
1
530 2*2fr
22-713
2123 8'5
9*82
I
71449*10
71654*48
20*901
18 3628-6
57-08
2
532 18*44
22*679
21 22 6*i
10*96
2
20*862
183043*6
57 90
3
53434-41
53650-19
22*646
21 2057*0
12*08
3
7I8 59-53
20*823
182153*8
18 18 59- 1
58-71
4
22*613
21 1941*1
21 18 18*5
13*21
4
7*1 4*35
723 8-94
20-784
595*
5
5 39 5'7 6
22*578
14*32
5
30*746
18 1259*6
60-31
6
54121-13
22*544
21 1649*3
15 '43
6
72513-30
20*708
18 655*4
61 -xo
1
54336-29
22-509
21 I5I33
21 13 30*8
1*5-54
1
72717-43
20*669
18 046*4
61-89
54551-24
22-473
17*63
72921*33
20*632
1754 327
62*67
9
5 48 5 97
22-438
' 21 1141*7
18*73
9
7 31 *5-oi
7332846
73531*68
20*594
174814*4
63*43
10
5 5020-50
22*403
21 946-1
19*82
10
20-556
I74I5I*5
64-19
11
55234-81
22-367
21 743*9
20*90
11
20-518
1735*4*1
172852*2
1722 15*8
64*94
12
55448-90
22-330
*i 5353
21-97
12
73734-67
20-480
65-69
13
5 57 **77
22*294
21 320-3
23-03
'3
7 39 37*44
20-443
66-44
H
55916-43
6 129*86
22-258
21 058-9
24*10
14
74139-99
20*407
I7i5 34*9
17 849*7
67-18
:i
22*220
20 58 31 -1
25-16
15
7434232
20*370
67-90
6 343-07
6 5 56 * 06
6 8 8-82
22*183
205557-0
26*21
16
7 45 44*43
20-333
17 2 o-i
68-62
!I
22*146
2053 16-6
27*25
*7
74746*32
20*297
1655 6*2
69 '34
22*108
205030*0
28*28
18
74948*00
20-262
1648 8-0
70-05
l 9
6 io2i-j6
6 12 33-67
22*071
204737-2
29*32
»9
75149*46
20*226
1641 5-6
70-74
20
22*033
2044 38*2
30-34
20
75350*71
20*190
WV 1
71*43
i 2I
61445-75
21994
2041 33*1
31*36
21
755 51*74
•0*154
162648-4
72-13
22
6 1657-60
21-957
20 38 21-9
3* '37
22
75752*56
20*119
16 1933-6
72-81
23
619 923
21*918
N.2035 4 -.7
33-37
23
759 53*17
20*084
N.l6 12 14*7
73 M8
SUNDA
Y 26.
TVBBSA
T 28.
O
621 20*62
21*879
N.2031 41*5
34-37
O
8 153*57
20*049
N.16 451-8
74 # i5
I
623 31 '78
21*841
20 28 12*3
35*36
I
8 3 53*76
20*015
155724-9
74-8i
2
62542-71
21*803
202437*2
36-34
2
8 5 53*75
19*982
154954-1
75-4*5
3
62753-41
21-764
202056*2
37*32
3
8 7 53*54
19*948
154219-4
76-11
4
630 3-88
21*725
20 17 9*4
38*28
4
8 953""
19*913
153440-8
76*75
5
6 32 14*11
21*686
20 13 16*8
39*25
5
8 11 52*50
8 1351-68
19-880
152658-4
77-38
6
6 3424-11
6 3633*87
21*647
20 9 18*4
40*21
6
19-847
15 19 12-2
78-01
1
21*607
20 5 143
41-17
I
8 1550-67
19*815
15 11 22*3
15 3286
78-63
63843-30
640 52*68
21*567
20 1 4*4>42*n
8i749*46
8 1948*06
19*783
79**5
9
21*528
195649*043*04
9
19*751
i4 553i*3
79-85
10
643 1-73
21-489
195227*943-97
10
82146*47
19*719
144730-4
8o*45
11
64510-55
21*450
1948 I -3' 44-89
11
8234469
19*687
143925*9
81*04
12
64719-13
21*410
194529*2:45-81
193851*6; 46-72
12
8 2542*72
19*656
143117-9
8163
13
64927-47
21*371
13
82740*56
19*625
1423 6*4
82-21
14
651 35-58
21*332
1934 8*6 4 7'6*
«4
829 38*22
19-595
141451*4
82-78
15
65343-45
21*293
19 2920*2 48*52
15
83135-70
19*565
14 633-0
83-36
16
65551-09
21253
1924 26*4' 49*41
16
83333*00
19-535
135811-1
83-92
17
65758-49
21*213
19 19 27*3' 50-29
',1
8 35 30*12
19*505
134946-0
84-47
18
7 ° 5-65
21-173
19 14 22-951-16
8 3727*06
19-477
1341 17*5
85-02
*9
7 2 12-57
21*134
19 913-4152-03
19
83923-84
19.448
133*45-8,85-56
20
7 419-26
2 1 * 096
19 358-652-89
I8 58 38-7.53-74
20
841 20*44
19-419
13 24 10*8: 8610
21
7 625-72
21-057
21
843 16*87
19-391
13 15 32*6 86 63
22
7 8 3i'94
21-017
18 53 i3 - 7,54-58
22
84513*13
19*363
13 6 5i*3| 8 7-i5
23
71037-92
20-977
i8 47 43'7S5-4a
23
847 9-23
I9-337
1258 6*8,87-67
24
7124367
20*939
N.1842 8-656*26
24
849 5-17
19-310
N.1249 19' 3j 88- 17
Digitized by
Google
XII.
MARCH, 1882.
49
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Right
Ascension.
in »©■
Declination.
Var.
in 10*.
o /
.WSBHBSDiT 29.
h m
8 51 0*95119-283
8 52 56-57 i9-«57
i7|i9*3io|N.i2 49 1
is 40 2
8 5452,-03
85647*34
8 58 42 * 50
9 037-51
9 *3*"3 8
9 4*7-10
9 621" 68
9 8 16- 11
9 10 10-41
9 1* 4"5 8
9 '3 5** * 4 ^ 1
9 15 5*5*
9 17 46-29
9 f 9 39*94
9 " S I"f2
9 23 20* 00
9 25 20- 17
9*7 ¥ 5" 35
19-331
19*206
19- 181
19-157
19
19
"»33
•108
929
93059
93252
4 5
3«
*3
19" 084
19*061
19*038
19-017
18 -995
«S'973
18-952
18-932
18*912
18*892
18-873
18-854
18836
18-817
1:1
12 22 38'
12 13 39-
12 437*
1155 si-
ll 4623 •
113713-
112759-
II 1843-
II 924-
II o r
105038*
IO4I 12*
103143"
10 22 II*
10 12 37-
10 3 o-
95321-
94340-
9 33 57'
924 11
1
. . 3
18-799 N. 9 1423*3
Thursday 30.
9 3+44-97- 8 782N. 9 4 33
88-17
O
88-67
I
89-17
2
89-66
3
90-14
4
90*62
5
91*10
6
91-56
7
92*02
8
92-47
9
92-93
10
93*37
11
93-80
12
94*23
-3
94*65
14
95*07
15
95*48
16
95*88
17
96*28
18
96-68
'9
97-07
20
97*44
21
97-82
22
98*18
*3
„ _ .4*97
9 36 37-6218*766
9 38 30- 16 18*749
940 22 "6l 18*734
942 14-97 l8 '7i8
944 7-^318-703
9 45 59"4* i« ' 6 *9
7l 947 5*"5° l8 * 6 74
81 9 49 43*5° l8,66 «
9 5 1 3S'43> 8 ' 6 48
9 53 *7"*8 18*636
9 55 i9"o6i8*623
9 57 IO "7^ l8 '^ !I
9 59 2*3918-600
10 o53*9 6l8 *589
._, lio 2 45'4 6l8 *S78
16)10 436-9018-568
17I10 6 28*2818*559
18 10 8 19*61 18-550
19I10 10 10*8818*541
20I10 12 2*1018-533
21 IO 13 53'28'i8'526
10 1544-4118*518
22
*3
*4
10 17 35-5018*512
85440-
84446
83449
82451
8 14 50*
8 448*
75443'
744 37'
7 34 2
7241
7H 7"
7 353'
65338-
643 21-
633 *•
62242*
6 12 20*
6 157*
55132-
541 6*
53038-
520 9-
5 9 39
10 19 26- 55118-505 N. 459 7-
98-54
98-90
99-25
99*59
99*93
00*26
00-58
00*91
OI '22
01*53
01-83
02' 12
02'4I
02-68
02'97
03*24
03*50
03*76
04*01
04*25
04*49
04*73
04*97
05*l8
05*39
Right
Ascension.
Var.
in io".
Declination.
Var.
In io«.
Friday
h m ■ s
10 1926*55 18-505 N
10 21 17*5618-499
IO23 8-54x8-494
102459*4918*489
102650*41 18*485
102841-31 18*481
IO30 32*18 18*477
10 32 23*03 18474
103413*8718-472
1036 4*6918*469
103755*5018*468
10 39 46-30 18-466
10 41 37*0918-465
1043 27-88 18465
1045 18*6718*466
10 47 9-4718-467
1049 0-2718*468
105051*08 18-469
105241-9018-472
105432-7418-474
105623-5918-477
1058 14*4618-480
11 o 5'35 18*484
11 1 56*27
31.
o /
4 59 7
44834
438 o
42724
4 1648*0
4 6 10*2
3 55 3 1 '4
34451*4
33410-5
3 23 28-6
31245*8
3 2 2*0
25I 17-4
240 32*0
22945*7
2 1858-8
2 8 II'I
I 57 22*7
1 46 33*6
135440
124 538
114 3-
1 3 11-9;
8-489N. O52 20*3
Saturday, APBIL i.
II 347'22|i8*494JN. 04128*2!
105-39
105-60
105-81
z 06-01
I06 '20
I06-38
106-57
106 * 74
106 '90
107*06
107*22
107*37
107*50
107-64
107-77
107-88
xoS-oi
108-13
108-23
108-32
108*41
108 -49
108*57
108-64
108-71
PHASES OF THE MOON.
Mar.
4
12
-9
26
h m
O Full Moon - - 12 39*5
J Last Quarter - 9 27-7
New Moon - - o 17-2
J First Quarter - 1 33*1
Mar. 2
18
30
h
<[ Apogee ----- 23
([ Perigee ----- 1
<[ Apogee ----- 9
(nautical almanac, 1882.)
Digitized by
Si
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50
MARCH, 1 88a.
XIII.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L.
P.L.
1
and
Noon.
of
IIP.
of
VP».
of
IKK
of
Position,
di&
diff.
diff:
diff.
/ *
1 *
1 u
§ *
I
a Arietis
W.
87 15 18
3097
88 43 31
3x00
90 II 41
3103
9i 39 47
3105
Saturn
w.
84 14 50
3105
85 42 54
3107
87 IO 56
3109
88 38 54
3112
Jupiter
w.
72 16 21
3116
73 44 11
3119
75 11 58
3122
76 39 41
3124
Aldebaran W.
54 7 17
3085
55 H 4 I
33 48 48
78 8 8
3087
57 4 11
3088
58 3* 35
3090
Mars
w.
32 23 1
3219
3219
35 14 35
76 39 13
3*17
36 40 24
3216
Spica
E.
79 37 7
3060
3063
3066
75 10 22
3068
2
a Arietis
W.
98 59 43
95 58 9
3114
100 27 36
3115
101 55 28
3115
103 23 19
3117
Saturn
W.
31x9
97 25 55
85 25 16
3120
98 53 40
86 52 46
3121
100 21 24
3121
Jupiter
W.
53 57 44
3131
3i33
3133
88 20 16
3U3
Aldebaran W.
65 54 13
3094
67 22 30
3095
68 50 46
3095
70 19 2
3094
Mars
W.
43 49 39
3214
45 15 35
3213
46 41 26
3213
48 7 20
321 1
Pollux
W.
25 24 1
3472
26 44 56
3434
28 6 34
64 49 18
3402
29 28 48
3374
Spica
E.
67 46 37
3075
66 17 57
3076
3077
63 20 40
3077
3
Jupiter
W.
95 37 43
3'3»
97 5 i4
3131
08 32 46
80 37 11
3130
100 19
3129
Aldebaran W.
77 40 30
3091
79 8 50
56 43 12
3091
3089
82 5 34
3088
Mars
W.
55 17 10
3206
3204
58 9 16
3203
59 35 "
3101
Pollux
W.
36 26 51
3276
37 5i 31
3263
39 16 26
3250
40 41 36
3238
Spica
E.
55 57 *9
3076
54 28 50
3074
55 9
98 29 20
3073
5i 31 «7
3073
Antares
E.
101 26 4
3090
99 57 42
3090
3088
97 56
3087
4
Aldebaran W.
89 27 58
3078
90 56 34
3077
92 25 12
3074
93 53 54
3071
Mars
W.
66 46 21
3"9*
68 12 41
3189
69 39 3
3186
71 5 29
3184
Pollux
W.
47 50 35
3192
49 l6 54
3183
50 43 23
3176
52 10 1
3168
Spica
E.
44 7 31
3064
42 38 38
3061
41 9 4i
3060
39 40 42
3057
Antares
E.
89 38 29
3078
88 953
3076
86 41 14
3073
85 12 32
3070
5
Aldebaran W.
101 18 12
3057
102 47 14
3054
104 16 20
3050
105 45 31
3046
Mars
W.
78 18 26
3168
79 45 13
3164
81 12 3
3162
82 38 58
3158
Pollux
W.
59 *5 16
3136
60 52 42
3129
62 20 16
3124
65 47 57
26 45 49
27 46 48
3118
Regulus
W.
22 24 31
3169
23 51 17
3152
25 18 23
3136
3123
Spica
E.
32 14 58
77 48 13
3043
30 45 39
3039
29 16 15
3037
3034
Antares
E.
3056
76 19 10
3054
74 50 4
3050
73 *° 53
3047
6
Mars
W.
89 54 42
3138
91 22 5
3U4
92 49 34
3129
94 17 9
3**4
Pollux
W.
71 8 12
3088
72 36 36
3082
74 5 8
3076
75 33 47
3069
Regulus
W.
34 6 42
65 53 52
3068
35 35 3i
3060
37 4 SO
3051
38 33 40
3043
Antares
E.
3028
64 24 14
3023
62 54 30
3019
61 24 41
3015
7
Pollux
W.
82 58 55
3039
84 28 20
3033
85 57 5*
3026
87 27 32
3020
Regulus
W.
46 1 59
3003
47 3* 9
2996
49 * 27
2987
50 32 56
2980
Antares
E.
53 54 13
105 49 16
2992
52 23 50
2986
50 53 20
2982
49 22 45
2977
a Aquike
E.
34«9
104 27 32
3417
103 5 35
3405
101 43 24
3394
8
Pollux
W.
94 57 57
2985
96 28 28
2979
97 59 7
2971
99 29 56
2965
Regulus
W.
58 7 47
2939
59 39 16
2931
61 10 56
2922
62 42 47
2914
Antares
E.
41 48 11
2951
40 16 57
2946
38 45 37
2941
37 14 10
2937
a Aquilae
E.
94 49 25
3343
93 26 3
3333
92 2 30
3325
90 38 48
3317
9
Regulus
W.
70 24 49
2868
7i 57 49
2858
73 3i *
26 31 44
2848
75 4 27
2838
Antares
E.
29 35 37
2918
28 3 41
2917
2917
24 59 47
2919
a Aquilae
E.
83 37 59 3281
82 13 25
3274
80 48 43
3269
79 2 3 55 3263
125 56 261 3202
Sttn
E. 130 13 26' 3236 128 47 59 3225
127 22 19 3214
Digitized by
Googk
XIV.
MARCH, 1882.
51
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L>
P.L.
£
and
Midnight
of
XV*.
of
xvni».
of
XXI\
of
q
Position
diff.
diff.
diff.
diff.
1 1 ct Arietis
W.
O § H
93 7 Si
3107
1 *
94 35 5*
3109
1 *
96 3 51
31x0
; *
97 3i 48
3112
Saturn
W.
90 6 49
3114
91 34 42
3116
93 2 32
81 2 37
3**7
94 30 21
82 30 11
3x18
Jupiter
W.
78 7 22
3125
79 35 1
3x28
3129
3*30
Aldebaran W.
00 57
3091
61 29 18
3092
62 57 37
3093
64 25 55
3093
Mars
W.
38 6 14
3115
39 3* 4
3215
40 57 55
3215
42 23 47
69 15 19
3215
,
Spica
E.
73 4* 33
3069
72 12 46
3071
7044 1
3073
3074
2
a Arietis
W.
104 51 8
31x7
106 18 57
3117
1 07 46 46
31x8
109 14 33
106 12 18
3118
Saturn
W.
101 49 8
3122
103 16 51
3122
104 44 34
3121
3x21
Jupiter
W.
89 47 45
3133
91 15 15
73 15 3 6
3134
92 42 44 3x34
94 10 13
76 12 11
3*33
Aldebaran W.
71 47 19
3<>94
3094
74 43 53
3093
3092
Mars
W.
49 33 i 6
3210
50 59 13
3210
52 2£ 10
33 38 29
3209
53 5i 9
3207
Pollux
W.
50 51 34
61 52 2
3349
32 14 49
60 23 24
33*7
33<J9
35 2 30
3*9*
Spica
E.
3<>77
3077
58 54 46
3077
57 26 8
3076
3
Jupiter
W.
101 27 53
3x28
102 55 29
3126
104 23 7
31*4
105 50 47
3**3
Aldebaran W.
8 3 33 59
3087
85 2 25
3086
86 30 53
3083
87 59 24
3080
Mars
W.
61 1 29
3200
62 27 38
3x98
63 53 50
44.58 25
3x96
65 20 4
3*94
Pollux
W.
42 7
3227
43 3* 37
4» 33 59
32x8
3208
46 24 25
45 3 6 23
3199
Spica
E.
50 2 44
3071
3069
47 5 12
3068
3065
An tares
E.
95 3* 3*
3086
94 4 4
3083
92 35 34
3082
91 7 3
3080
4
Aldebaran W.
95 22 39
3069
96 51 27
3066
98 20 18
3063
99 49 13
3060
Mars
W.
72 31 57
53 36 48
318X
73 58 29
3178
75 25 4
3»7S
76 5i 43
3*7*
Pollux
W.
3162
55 3 43
3*55
56 30 46
3*4*
57 57 57
3*4*
Spica
E.
38 11 40
3054
%6 42 34
82 14 58
3052
35 13 26
80 46 7
3049
33 44 14
3046
An tares
E.
83 43 46
3069
3066
3063
79 17 12
3060
5
Aldebaran W.
107 14 47
3H3
108 44 6
3039
110 13 30
3035
in 42 59
3031
Mars
W.
84 5 58
3*55
8| 33 1
3150
87 10
68 11 44
3*47
88 27 23
3*4*
Pollux
W.
65 15 45
28 13 31
3111
66 43 41
3105
3x00
69 30 54
32 38 5
3093
Regulus
W.
3x10
29 41 29
3098
31 o 41
ix 18 1
68 52 54
3088
3078
Spica
E.
26 17 17
71 si 38
3030
24 47 41
3026
3023
21 48 17
3019
Antares
E.
3043
70 22 18
3039
3036
67 23 26
3031
6
Mars
W.
95 44 49
3119
97 1* 35
31x4
98 40 28
50 29
3x09
100 8 26
3105
Pollux
W.
77 * 34
3064
78 31 28
3058
3051
81 29 38
3045
Regulus .
W.
40 3
3035
4i 32 30
3026
43 2 10
56 54 41
30x8
44 32
3011
Antares
E.
59 54 47
3010
58 H 47
3005
300 x
55 24 30
2997
7
Pollux
W.
88 57 20
3013
90 27 17
3006
91 57 22
3000
93 27 35
2993
Regulus
W.
52 3 34
2971
53 34 23
2964
55 5 21
2956
56 36 29
2948
Antares
E.
47 52 3
2971
46 21 14
2967
44 50 20
2962
43 19 19
2956
a. Aquilffi
E.
100 21
3383
98 58 24
337*
97 35 36
3362
96 12 36
335*
8
Pollux
W.
101 53
64 14 48
*957
102 32
2949
104 3 17
2942
105 34 43
*934
Regulus
W.
2905
6s 47 1
2896
67 19 25
2887
68 52 1
2877
Antares
E.
35 4* 3 8
2932
54 n
87 50 54
2928
52 39 17
86 26 44
2924
31 7 29
85 2 26
292 X
a Aquita
E.
89 14 56
3308
3301
3*94
3287
9
Regulus
W.
76 38 6
2828
78 11 58
2817
79 46 4
2806
81 20 24
18 52 50
*795
Antares
E.
23 27 52
2922
21 56 1
2929
20 24 19
2939
*955
a Aquiltt
E.
77 59 3258
76 34 3253
75 8 54
3250
73 43 44
3246
,*
Sun
E.
124 30 19' 3189 123 3 5713177 121 37 2I 3*66 120 10 31 3153]
Digitized by
Gob§l<
5*
MARCH,
188
1.
XV,
MEAN TIME.
LUNAR DISTANCES.
t
Start Name
and
Position.
Noon.
P.L.
of
diff.
IIP-
P.L.
of
diff.
VP.
P.L.
of
diff.
IX*.
P.L.
of
diff.
10
Regains
Spica
a Aquita
Sun
W.
W.
E.
E.
1 *
82 54 58
28 54 36
72 18 30
118 43 25
*7*4
2768
3*43
3141
t •
84 29 47
30 29 46
70 55 12
117 16 5
2772
2756
3242
3127
/ *
86 4 51
52 5 12
69 27 S3
115 48 28
2761
* 744
3241
3114
t *
87 40 10
33 40 53
68 2 32
114 20 36
*749
2732
3240
3101
II
Regulas
Spica
a. Aquila
Sun '
W.
W.
E.
E.
95 40 47
41 45 26
60 56 1
106 57 6
2687
2669
3*53
3031
97 17 45
43 20 48
59 30 55
105 27 31
2673
2655
3260
3017
98 55 1
44 58 *9
58 5 57
103 57 39
2660
2642
3269
3002
100 32 34
46 36 27
56 41
102 27 28
2647
2627
.3280
2987
12
Spica
a. Aquilffl
Sun
W.
E.
E.
54 5i 7
49 4i 9
94 5i 45
2556
337i
2909
56 31 3
48 18 20
93 l 9 37
2541
3400
2892
58 11 20
46 56 3
91 47 8
2527
3434
2876
59 5i 56
45 34 25
90 14 18
2511
3473
2859
*3
Spica
Antares
a Aquil©
Sun
W.
W.
E.
E.
68 20 23
21 20 4
58 59 36
82 24 49
*433
*535
3784
2775
70 3 10
25 29
37 44 17
80 49 50
2417
2507
3880
*759
71 46 20
26 41 33
36 30 37
79 14 28
2402
2481
3991
2742
73 *9 5*
28 23 13
35 ** 48
77 38 44
2386
2456
4120
2725
14
Spica
Antares
Sun
W.
W.
E.
82 13 13
36 59 36
69 34 30
2308
2352
2642
8j 59 1
38 44 20
07 56 32
2292
2333
2626
85 45 12
40 20 32
66 18 12
2277
2315
2610
87 3i 45
42 15 9
64 39 30
2262
2297
*593
15
Spica
Antares
Sun
W.
W.
E.
96 30 3
51 9 36
56 20 40
2189
2215
2519
98 18 47
5* 57 4i
54 39 53
2175
2200
2505
100 7 52
54 46 8
52 58 46
2162
2186
2491
101 57 17
56 34 57
51 17 20
2149
2172
2478
16
Spica
Antares
Sun
W.
W.
E.
65 44 6
42 45 51
2090
2109
2422
113 22
67 34 52
41 2 48
2080
2098
2413
114 51 52
69 25 54
39 *9 3 1
2070
2088
2405
116 43 38
71 17 12
37 36 3
2060
2078
2398
*7
Antares
a Aquita
Sun
W.
W.
E.
80 37 10
36 56
28 56 42
2039
3528
2380
82 29 44
37 20 49
27 12 39
2033
3396
2382
84 22 26
38 45 10
25 28 38
2028
3280
2387
86 15 17
40 7 45
23 44 44
2024
3179
*394
20
Sun W.
Aldebaran E.
Mars E.
Pollux E.
14 20 16
55 13 20
83 21 26
97 26 56
*594
2XII
2222
2163
'5 59 19
53 22 38
81 33 3i
95 37 3*
2569
2125
"35
2174
17 38 57
51 32 17
79 45 55
93 48 26
2552
2138
2248
2186
19 18 58
49 42 16
77 58 39
9* 59 37
*544
2152
2261
2198
21
Sun W.
Aldobaran E.
Mars E.
Pollux E.
27 39 39
40 37 56
«9 7 35
83 38
2565
2235
*339
2272
29 19 22
38 50 21
67 22 32
81 13 57
2576
2254
*355
2289
30 58 50
37 3 14
85 37 53
79 *7 4^
2588
2274
*373
2305
32 3 I I
35 16 36
63 53 39
77 4i 49
2602
2294
2391
2323
22
Sun
Mars
Pollux
Regulus
W.
E.
E.
E.
40 48 56
55 19 10
68 59 13
105 37 4
2682
2487
2419
*354
42 26
53 37 39
67 16 5
103 52 23
2700
2507
2440
*373
44 2 40
51 56 36
65 33 27
102 8 9
2718
2529
2460
2390
45 38 56
50 16 3
63 51 18
100 24 20
2736
*549
2482
2409
23
Sun
Mars
Pollux
Regulus
W.
E.
E.
E.
53 34 5
42 37
55 28 14
9i 5i 53
2832
2660
*595
2503
55 7 5i
40 23 3
53 49 12
90 10 44
2852
2683
2619
2521
56 41 11
38 46
52 10 43
88 30
2871
2706
2643
2540
58 14 7
37 9 28
50 32 47
86 49 43
2892
2730
2668
*559
*4
Sun
W.
65 52 29
2989
67 22 56
3007
68 53 0*3026
70 22 40
3045
Digitized by
XVI.
MARCH, 1882.
53
MEAN TIME.
LUNAR DISTANCES.
i
Star's Nams
and
Position.
Midnight,
P.L.
of
diff.
XV.
P.L.
of
diC
xvni\
P.L.
of
diff.
XXI*.
PX.
of
diit
10
Regulus
Spica
a Aquil»
Sun
W.
W.
E.
E.
or*
89 15 45
35 16 50
66 37 10
112 52 28
»737
2719
3141
3087
t »
90 51 36
36 53 4
65 11 49
in 24 3
2725
2707
3242
3073
1 *
92 27 43
38 29 34
03 40 29
109 55 21
27x2
2695
3»45
3060
/ *
94 4 7
40 6 21
62 21 13
108 26 22
2700
2681
3248
3046
11
Regulus
Spica
a Aquil©
Sun
W.
W.
E.
E.
102 10 26
48 14 45
SB & 34
100 56 59
2634
2614
3292
2971
103 48 35
49 53 *i
53 5* 13
99 26 10
2619
2599
33<>7
»955
105 27 4
51 32 17
52 28 10
97 55 *
2605
2585
33*5
2940
107 5 52
53 " 3*
51 4 *7
96 23 33
2591
257X
3346
2924
12
Spica
a Aqaila
Sun
W.
E.
E.
61 32 54
44 13 3i
88 41 7
»495
35i8
2843
63 14 14
42 53 27
87 7 35
2480
3571
2827
64 55 55
41 34 21
85 33 4*
2465
3632
2809
66 37 58
40 16 21
83 59 26
*449
3702
*793
13
Spica
An tares
aAquil®
Sun
W.
W.
E.
E.
75 13 47
30 5 28
34 9 f
76 2 38
2371
»434
4271
2709
76 58 4
31 48 14
33 * 47
74 26 10
«355
24x2
4448
2692
78 42 44
33 3 1 3*
3i 57 9
72 49 19
2339
2391
4659
2675
80 27 47
35 15 20
30 55 35
71 12 5
2323
237X
4907
2659
*4
Spica
An tares
Sun
W.
W.
E.
89 18 41
63 26
2247
2280
2578
9i 5 59
45 47 4*
61 21 1
2233
2263
2563
92 53 38
47 34 36
59 4» 15
2217
2247
2548
94 4* 40
49 21 54
58 1 8
2203
2231
*533
»5
Spica
Antares
Sun
W.
W.
E.
105 47 1
58 24 7
49 35 36
2x36
2158
2465
i?5 37 5
60 13 38
47 53 34
2x24
2x45
*453
107 27 28
62 3 28
46 11 15
21X2
2X32
*443
109 18 9
63 53 38
44 28 41
2101
2120
2432
16
Spica
Aji tares
Sun
W.
W.
E.
118 35 38
73 8 46
35 5* 25
2051
2069
2392
120 27 52
75 33
34 8 38
2043
2061
2387
122 20 19
76 52 33
32 24 44
2036
2052
2383
124 12 57
78 44 46
30 40 44
2029
2045
2381
17
Antares
a, Aquita
Sun
W.
W.
E.
88 8 14
41 34 19
22 I O
2020
3090
2405
90 1 17
43 * 4i
20 17 32
2017
3013
2421
91 54 25
44 3* 38
18 34 27
2015
2944
*444
93 47 35
46 4 1
16 51 54
2014
2883
2476
20
Sun W.
Aldebaran E.
Mars E.
Pollux. E.
20 59 10
47 52 36
jo 11 42
90 11 7
2542
2168
2276
2212
22 39 25
46 3 20
74 *5 7
88 22 57
*543
2183
2290
2226
24 19 38
44 14 *7
B i? 5 1
2548
2200
2306
2241
*5 59 44
42 25 59
70 53 3
84 47 4*
2556
2217
2322
2256
21
Sun W.
Aldebaran E.
Mars E.
Pollux E.
34 16 54
33 30 28
02 9 52
75 56 24
2617
2316
2409
2341
35 55 *6
J* 44 5*
60 26 30
74 " *5
2632
2339
2429
2360
37 33 38
29 59 50
58 43 3 6
72 26 53
2648
^364
2448
2380
30 11 28
25 15 23
57 * 9
70 42 49
2664
2389
2467
2399
22
Sun
Mars
Pollux
Regulus
W.
E.
E.
E.
47 H 48
48 35 58
62 9 40
98 40 58
«755
2571
2503
2427
48 50 15
46 56 23
60 28 31
96 58 2
*774
*593
2526
2446
50 25 17
45 17 18
58 47 54
95 15 33
*794
2614
2548
2465
5i 59 53
43 38 42
57 7 48
93 33 3°
2812
2637
2572
2483
*3
1
Sun
Mars
Pollux
Regulus
W.
E.
E.
E.
59 46 37
35 33 *8
48 55 H
85 9 52
2911
*754
2694
2578
61 18 42
33 58
47 18 36
83 30 27
2931
2779
2720
«597
62 50 22
32 23 5
45 4* *3
81 51 28
2950
2805
»747
2615
64 21 38
30 48 44
44 6 45
80 12 54
2970
2832
*775
2634
k
Sun
W.I 71 51 57
3064
73 20 51
3081
74 49 24 3x00
76 17 34
3117
Digitized by
Googk
54
MARCH,
1882.
XVII.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
PX.
P.L.
P.L.
P.L.
1
and
Noon*
of
III*.
of
VI h .
of
IX\
of
Position.
diff.
diff.
diff.
diff
H
Saturn W.
t »
29 15 31
2710
or*
30 51 57
2725
O 1 H
32 28 4
2740
/ *
34 3 5i
*754
Mars E.
29 14 57
2859
27 41 46
2888
26 9 12
2919
24 37 18
2952
Pollux £.
42 31 44
2803
40 57 20
2833
39 23 35
2864
37 50 30
2896
Regulus B.
78 34 45
1653
.76 57 2
2671
75 19 43
2689
73 4* 48
2707
*S
Sun W.
77 45 2 3
3*34
79 " 5i
3152
80 39 58
3168
82 6 46
3x84
Saturn W.
4i 57 5*
2829
43 3i 4*
2845
45 5 **
2859
46 38 24
2873
Jupiter W.
28 13 57
30 16 12
65 44 7
2839
29 47 34
2855
31 20 51
2870
32 53 49
2885
Pollux E.
3093
28 47 54
3'44
27 20 38
3200
25 54 28
3263
Regulus E.
*793
64 9 30
2810
62 35 15
2825
61 1 20
2842
26
Sun W.
89 16 3
54 19 50
3*59
90 41 2
3273
92 5 45
3287
93 30 12
58 53 34
3300
Saturn W.
2940
55 5i *4
2952
57 « 37
2965
2977
Jupiter W.
40 33 56
*955
4* 5 5
2969
43 35 57
29 56 52
2981
45 * 34
2993
Aldebaran W.
26 54 49
53 ™ 5i
2958
28 25 54
2964
2970
31 27 42
*977
Regulus E.
2917
5« 44 54
2931
50 13 15
2946
48 4* 54
*959
Spica E.
107 4
2885
105 31 22
2899
103 59 2
2911
102 26 57
2923
z 7
Sun W.
100 28 52
3357
101 51 58
3368
103 14 51
3377
104 37 34
3387
Saturn W.
66 24 52
5* 36 4
3028
67 54 30
3038
69 23 56
3°47
70 53 11
3054
Jupiter W.
3047
54 5 19
3056
55 34 23
3065
57 3 *5
43 *8 59
36 40 58
3074
Aldebaran W.
38 59 37
3013
40 29 33
3021
41 59 20
3027
3034
Regulus E.
41 9 20
3<*4
39 39 37
3<>37
38 10 10
3049
3062
Spica E.
94 5° 7
2977
93 l 9 *5
2986
91 48 54
2994
90 18 34
3002
28
Sun W.
in 28 38
3426
112 50 25
3431
114 12 5
3438
115 33 38
3444
Saturn W.
78 17 5
3090'
79 45 *7
3096
81 13 42
3101
82 41 51
3106
Jupiter W.
64 25 8
3110
65 53 6
3"6
67 20 56
3122
68 48 39
3126
Aldebaran W.
50 55 17
3063
52 24 12
21 20 11
3067
53 53 *
3072
55 *i 45
3°77
Mars W.
20 3 13
29 18 55
3364
3350
22 49 25
3339
24 12 52
333i
Regulus E.
3129
27 51 20
3144
26 24 4
79 50 38
3160
H 57 7
78 21 27
3178
Spica E.
82 49 21
3038
81 19 56
3°44
3050
3<>55
29
Sun W.
122 20
3465
123 41 3
3468
125 23
347'
126 23
3474
Saturn W.
90 1 13
3"4
91 28 53
3127
92 56 30
3129
94 24 4
80 27 31
3»3«
Jupiter W.
7 6 5 55
3H5
77 33 "
3148
79 22
3150
315*
Aldebaran W.
62 44 16
3091
64 12 36
3093
65 40 54
3094
67 9 10
3096
Mars W.
31 12 3
3306
32 36 7
3302
34 16
3300
35 *4 2 7
3298
Pollux W.
22 38 56
3600
23 57 30
69 28 9
3545
25 17 4
3498
26 37 30
3458
Spica E.
70 56 51
3073
3<>75
67 59 29
3078
66 30 52
3079
30
Jupiter W.
87 42 53
3155
89 o 56
75 58 26
3154
90 37
3X53
92 4 5
3X53
Aldebaran W.
74 3° x 4
3098
3096
77 26 40
3096
78 54 55
3095
Mars W.
42 26 4
3286
43 50 3*
3284
36 16 40
3281
46 39 36
3278
Pollux W.
33 *8 59
3327
34 52 39
3309
3293
37 4i
3278
Spica E.
59 8 9
3083
57 39 38
103 6 59
3082
56 11 6
3081
54 42 33
100 10 36
3080
Antares E.
104 35 9
3100
3099
101 38 48
3098
3097
31
Aldebaran W.
86 16 39
3083
87 45 9
55 8 15
3081
89 13 4*
3078
90 42 19
3074
Mars W.
53 43 if
44 46 3 6
3261
3258
56 33 16
47 38 H
3*53
57 58 *2
3248
Pollux W.
3218
46 12 24
3208
3198
49 4 36
3188
Spica E.
47 19 22
3069
45 50 35
3067
44 *i 45
89 52 8
3064
42 52 52
3061
Antares E.
9* 49 5
3086
91 20 39
3083
3080
88 23 34 3077
Digitized by
Google
XVIII.
MARCH,
1882.
55
MEAN TIME.
LUNAR DISTANCES.
t
Star's Name
and
Position.
Midnight.
PA.
of
dift
XV*
P.L.
of
diff.
xvm h .
PA.
of
diff*
XXI*.
PA
of
diff.
H
Saturn W.
1 »
35 39 19
2769
# n
37 14 2 7
2785
1 n
38 49 *5
2800
1 •
40 23 43
2814
Mars E.
23 6 5
36 18 6
1988
21 35 37
3027
20 5 58
3072
18 37 14
3**4
Pollux E.
2931
34 46 26
2967
& I5 3 *
3005
31 45 26
67 19 5
3<>47
Regulus E.
72 6 17
*7*5
70 30 10
2742
68 54 26
2760
«777
25
Sun W«
83 33 14
48 11 17
3200
84 59 23
3215
86 25 14
3230
87 50 47
3*45
Saturn W»
2887
49 43 53
35 5; 46
2901
51 16 11
29x4
52 48 12
2927
Jupiter W.
34 26 27
2900
*9H
37 30 47
2928
39 * 3°
2942
Pollux E.
24 29 33
3334
23 6 1
3418
21 44 5
35i7
20 24
3634
Regains E.
59 *7 47
2858
57 54 34
2873
56 21 40
2888
54 49 6
2903
26
Suh W.
94 54 H
00 24 16
46 36 56
331a
96 18 21
61 54 45
33*4
97 4* 5
333^
99 5 35
3347
Saturn W.
a 9 8 7
2998
63 25
3009
64 55 2
51 6 37
3018
Jupiter W.
3004
48 7 4
34 *8 55
3016
49 36 57
3026
3037
AldebaranW.
32 58 23
2985
2992
35 59 18
2999
37 *9 3$
3006
Regains E.
47 10 50
2973
45 40 3
2985
44 9 3*
2999
42 39 18
3012
Spica E.
100 55 7
*934
99 *3 3 1
2946
97 5^ 10
2956
96 21 2
2966
27
Suw W.
106 5
3395
1Q7 22 27
3404
108 44 30
75 19 5»
61 28 50
34"
no 6 43
76 48 36
3419
Saturn W.
72 22 17
3063
73 5* "
3070
3077
3084
Jupiter W.
58 31 56
3082
60 28
3090
3097
62 57 3
3104
AldebaranW.
44 58 29
3040
46 27 5*
3<>47
47 57 7
3052
49 26 15
3057
Regulus E.
35 12 2
88 48 24
3074
33 43 *i
87 18 25
3087
32 14 56
85 48 35
3x01
30 46 47
84 18 54
3115
Spica E.
301 X
3018
3<>*5
3032
28
Son W.
116 ss 5
3449
118 16 26
3454
119 37 42
3458
120 58 53
346*
Saturn W.
84 9 53
70 16 17
3110
85 37 50
31 15
87 5 42
31x9
88 35 29
74 38 37
3x21
Jupiter W.
3*3*
7i 43 49
3x36
73 " x 5
3139
3142
AldebaranW.
56 50 23
3080
58 18 57
3083
59 47 *7
3087
6i 15 53
29 48 2
3089
Mars W.
25 36 28
33*3
27 13
3317
28 24 5
33"
3309
Regulus E.
25 30 31
70 52 22
3199
22 4 20
3222
20 38 37
3*49
19 13 26
3281
Spica E.
3059
75 23 22
3063
73 54 *7
3067
72 25 37
3070
29
Sun W.
127 43 54
3475
129 4 46
3477
130 25 36
3478
131 46 25
3479
Saturn W.
95 5^ 36
81 54 37
313*
97 19 7
3133
98 46 37
3134
100 14 5
3X34
Jupiter W.
3153
83 " 43
3*54
84 48 47
3»55
86 15 50
3X55
Aldebaran W.
68 37 24
36 48 41
3097
70 5 37
3097
71 33 50
3098
73 a 2
3098
Mars W.
3296
38 12 58
3*94
39 37 17
3291
41 1 39
3288
Pollux W.
27 58 41
34*4
29 20 30
3396
30 42 51
62 5 12
3370
32 5 42
DO 36 40
3347
Spica E.
65 2 17
3081
63 33 44
3082
3082
3083
30
Jupiter W.
93 3i "
80 23 11
3152
04 58 18
81 51 29
3X49
06 25 28
83 19 50
3148
97 5* 40
84 48 13
52 18 26
3X45
Aldebaran W.
3*93
3091
3089
3087
Mars W.
48 4 13
3275
49 28 54
3272
50 53 38
3*69
3265
Pollux W.
39 5 37
3264
40 30 30
3*5i
4i 55 39
3*40
4 2 *l I
48 48 5
3**9
Spica E.
53 13 59
98 42 23
3078
5i 45 *3
3077
50 16 45
3075
3073
Antares E.
3095
97 14 7
3093
95 45 49
3091
94 17 a 9
3088
3 1
Aldebaran W.
92 11
3070
93 39 46
60 48 50
3066
95 8 37
62 14 11
3063
96 37 32
3058
Mars W.
59 *3 34
3*45
3241
3*35
63 39 39
3230
Pollux W.
50 30 59
3180
51 57 32
317X
53 H l6
3162
54 5£ 10
2 6 55 34
82 28 34
3153
Spica E.
41 23 54
3<>57
39 54 5*
85 26 13
3°53
38 25 45
83 57 * 6
3050
3<>45
Aiitares E.
86 54 56
3073
3069
3065
3061
Digitized by
Got
o
56
A
PRIL, 1
882.
I.
AT APPARENT NOON.
1
1
•s
1
1
THE SUN'S
Sidereal
Time of
the Semi-
diameter
Equation of
Time,
tobe
added to
*
1
Apparent
Right Attention.
Var.
in
1 hoar.
Apparent
Declination.
Var.
in
1 hour.
pawing
the
Meridian.*
wubt.from
Apparent
Time.
Var.
in
1 hour.
Sat.
Mon.
i
2
3
h m ■
O 42 53-07
O 46 31*41
50 9*88
t
9*<>9S
9*100
9*106
t
N. 4 36 50*9
4 59 55'i
5 22 540
57*78
57/ 5*
57*34
m s
I 4*50
i 4*52
1 4' 54
m •
3 54-04
3 35-88
3 1785
s
0*759
o*754
0*748
Tues.
Wed.
Thur.
4
I
53 48-50
57 27*29
1 1 6*28
9-113
9*iao
9*129
5 45 47'*
6 § 34*5
6 31 155
57*09
56*84
5*5*57
1 4-56
1 4'59
1 4*62
2 59-96
2 42-25
2 24*73
0-742
o"734
0*725
Frid.
Sat.
Sun.
I
9
1 4 45-48
1 8 24*92
1 12 4*62
9-138
9-149
9-160
6 53 49*9
7 « i7'4
7 38 37*6
56*29
55*99
55*69
1 4-65
1 4-68
1 4-72
2 743
i 50*36
1 3355
0*716
0-706
0695
Mon.
Tues.
Wed.
IO
ii
12
1 15 4459
1 19 24*86
i *3 5 '44
9*172
9*184
9-197
8 50-3
8 22 55*0
8 44 51 4
55*36
55*02
54*67
1 4-76
1 4*8o
1 484
1 17*02
1 0-78
44-85
0*683
0*670
0*657
Thur.
Frid.
Sat.
»3
»5
1 26 46-34
1 30 27-59
1 34 9-19
9*211
9*226
9*241
9 6 39*1
9 28 17*8
9 49 47'*
54*30
53*9*
53*5*
1 489
1 4-94
1 4*99
29*24
13*98
0*643
0*629
0*614
o*93
Sun.
Mon.
Tues.
16
:z
1 37 51-16
1 41 31*51
1 45 16-25
9*257
9273
9-289
10 11 6*9
10 32 16-5
10 53 15*7
53*ii
52-68
5224
1 5-04
1 510
1 516
15-48
29-65
43*42
0*598
0*582
0*566
Wed.
Thur.
Frid.
19
20
21
1 48 59*39
1 52 4294
1 56 26*91
9*306
9' 3*3
9*341
11 14 4-2
11 34 41-5
" 55 74
51*79
5132
50*83
1 5*22
1 5*28
1 5'34
56*80
1 976
1 22*31
o*549
0531
0514
Sat.
Sun.
Mon.
22
23
*4
2 11-31
2 3 5615
2 7 41*43
9*359
9*377
9- 396
12 15 21*5
12 35 23-5
12 55 13-1
50*34
49*83
49*3o
1 541
1 5'47
* 554
1 34*43
1 46*12
1 57-36
o*496
0*478 •
o'459
Tues.
Wed.
Thur.
20
27
2 11 27*17
2 15 13-38
2 19 0*06
9*416
9 435
9*455
• 13 14 49*9
13 34 136
13 53 239
48*76
48*21
47*64
1 561
1 5*68
1 5*76
2 8*14
2 18*46
2 28*30
0*440
0-420
0-400
Frid.
Sat.
Sun.
28
29
30
2 22 47*24
2 26 34*91
2 30 23*10
9*476
9*497
9*519
14 12 20*4
14 31 2*9
14 49 31-0
47* 06
46*47
45*87
1 5*83
1 591
1 5*99
2 37-66
2*46*51
2 54*86
o*379
0*358
o*337
Mon.
31
2 34 ii*8i
9*54^
N.15 7 44*5
45**5
1 6*06
3 2*68
0*315
•Mean Tim*
s of the Semidiam
eter passu
ng may be found by rmbtract
ing 0*- x8 from the Sidereal Time.
Digitized by
Google
11.
APRIL,
1882.
57
AT MEAN NOON.
1
•
*
i
THE SUN'S
Equation of
Time,
to be
eubt.from
Sidereal Time.
Apparent
Right Attention.
Apparent
Declination.
Semi-
diameter.*
added to
Mean
Time.
Sat.
Sun.
Mon.
a
3
b m •
O 42 52*48
46 30»87
50 9-38
/ »
N. 4 36 47M
4 59 51$
5 22 50*8
t w
16 1*9
16 i*6
16 1*4
m ■
3 5409
3 3593
3 17*89
h m •
38 58*39
42 5494
046 51*49
Tues.
Wed.
Thur.
4
i
O S3 48 -04
57 26-88
1 I 5-91
5 45 44*4
6 8 31*9
6 31 13-2
16 11
16 o*8
16 0*5
3 o*oo
2 42*28
2 24*76
50 48*05
51 44*60
58 41*15
Frid.
Sat.
Sun.
I
9
1 4 45J6
1 8 24*64
1 12 4*38
6 53 479
7 16 15-7
7 38 36-2
16 0*2
16 o*o
15 59'7
* 7"45
1 50*38
* 3357
1 2 37' 70
1 6 34*26
1 10 30*81
Mon.
Tues.
Wed.
10
ii
12
1 15 44-39
1 19 24*70
1 23 5*32
8 49*1
8 22 54*0
8 44 50*7
15 59"4
15 59*1
15 589
1 17*03
1 079
44-86
1 14 27-36
1 18 23*92
1 22 20-47
Thur.
Frid.
Sat.
*3
H
IS
1 26 46*27
1 30 2755
1 34 9-19
9 6 38-7
9 28 17*6
9 49 47*
15 58*6
15 58-3
15 58*0
29*25
13*98
0*94
1 26 17*02
1 30 13*58
1 34 10*13
Sun.
Mon.
Tues.
16
1 37 51*20
1 41 35-59
1 45 16*36
10 11 7*1
10 32 16-9
10 53 16-3
15 578
15 57'5
15 57*2
15*48
29*65
43 '43
1 38 6*68
1 42 324
* 45 59*79
Wed.
Thur.
Frid.
19
20
21
1 48 5953
1 52 43-12
1 56 27-13
11 14 5*0
11 34 4*'5
11 55 85
15 57*0
15 567
15 56*5
56-81
1 9*77
1 22*32
1 49 56- 34
1 53 52*90
x 57 49*45
. Sat.
Sun.
Mon.
22
«3
24
2 11-56
2 3 56-43
2 7 4174
12 15 22*8
12 35 25*0
12 55 14*7
15 56*2
15 56*0
15 557
1 34'44
1 46*13
1 57'37
2 1 46*00
2 5 42*56
2 9 39-11
Taes.
Wed.
Thur.
51
27
2 n 27-51
* 2 15 13*74
2 19 045
13 14 51*7
13 34 155
13 53 25-9
15 555
15 55'*
15 55*o
2 8*16
2 18*48
2 28*32
2 13 35*66
2 17 32*22
2 21 28*77
Frid.
Sat
Sun.
28
29
30
2 22 47*65
2 26 35*35
2 30 23-56
14 12 22*5
14 31 51
H49 333
15 54'8
15 545
15 54'3
2 37*67
2 4653
2 54*87
2 25 2553
2 29 21-88
2 33 18*44
Mon.
31
2 34 12*30
N.15 7 468
15 54'i
3 2*69
2 37 H'99
•n
IwSen
lidiameter for App
arent Noon may be a
attuned the si
ime as that for
Mean Noon.
Digitized by
Google
58
APRIL, 1 88a.
III.
MEAN TIME.
J
3
o
a-
a
THE SUN'S
Apparent
Logarithm
of the
Radio*
Vector
of the Earth.
Transit
of the
First Point
of
Aries.
THE MOON'S
Longitude.
Latitude;
Semidiameter.
HorisontalParalkx.
Noon.
Noon,
Noon.
Noon,
Midnight
Noon.
Midnight.
i
2
3
# *
11 39 30-7
12 38 36*5
13 37 40-2
S.0'38
0-35
0*30
9-9999651
0*0000890
•0002133
h m •
23 17 12*00
23 13 16*18
23 9 20*27
1 *
h 47-3
14 si'i
H 56-2
1 *
14 49-0
H 53'5
14 59-1
1 »
54 "'<>
54 *4'8
54 43'3
1 »
54 17'*
54 33'5
54 54'°
4
I
14 36 4I'8
15 35 41-5
1 6 34 393
0*23
0*14
S.o-03
0*0003380
-0004631
' 0005886
23 5 24*37
23 1 28*46
22 57 32*56
15 2*3
15 9-2
15 16-9
IS 5'6
15 12-9
15 209
55 5'6
55 31 •©
55 59' 1
55 i8'o
55 44'7
56 14-1
1
9
17 33 353
18 32 29*5
19 31 2I"9
N.C09
0*21
0*32
0*0007144
'0008403
* 0009662
22 53 36*65
22 49 40-74
22 45 44-83
15 25-2
15 34'*
'5 43*7
15 296
15 3 §-8
15 48-6
56 29*6
57 * '5
57 37*3
56 45-8
57 196
57 55 '3
10
ii
12
20 30 12*6
21 29 1*6
22 27 49*0
0-43
0*52
0-59
0*0010920
'OOI2175
•0013426
22 41 48*93
22 37 53-02
22 33 57-11
15 535
16 3-4
10 12*7
16 8'2
16 i6'9
58 13-4
58 49-6
59 *3'8
58 31--S
59 7**
59 39'*
'3
'4
'5
23 26 34*6
24 25 18 '5
25 24 o*6
0-63
0-64
o*6o
0*0014671
•0015907
•0017133
22 30 1*20
22 26 5*30
22 22 9-39
16 20*7
16 26'S
16 29*1
16 23*9
16 28-3
16 29*1
59 53'°
60 14*2
60 23*9
60 4-8
60 20'7
60 23*7
16
16 22 40*9
27 21 19*4
28 19 56-0
0-54
0-44
0*31
0*0018348
•0019550
•0020739
22 l8 I3 a 48
22 14 17*57
22 10 21*67
l6 28'0
l6 22*9
16 14-2
16 26*0
16 19*0
16 8-6
60 19*9
60 1*2
59 *9 # i
60 12 '3
59 46'7
59 8'8
'9
20
21
29 18 30*8
30 17 3*5
31 15 34-2
0*18
N.o'04
S.o*io
0*0021915
•0023078
"0024228
22' 6 25*76
22 2 29*85
21 58 33-95
16 2*5
15 49'i
15 35-1
15 559
15 42-1
IS 28-2
58 463
57 57'i
57 5*9
58 22 '3
57 31 '5
56 40-8
22
23
*4
32 14 2*9
33 1* 2 9'4
34 10 53'8
0*22
0-33
0*41
0*0025367
•0026495
•0027612
21 54 38*04
21 50 42*13
21 46 46*22
IS 21'7
'5 9'8
13 0*0
'5 '5'5
15 4'6
14 56-1
56 i6'7
55 33'
54 57'5
55 54'°
55 H'*
54 43' 1
25
26
27
35 9 *6-i
36 7 36-2
37 5 543
0-48
0*52
0*54
0*0028720
•0029819
•0030910
21 42 50*31
21 38 54*41
21 34 58-50
14 52-9
14 48-5
14 47-0
14 50-4
'4 47 "4
14 47'*
54 3''3
54 »5'3
54 9' 6
54 22-0
54 "*3
S4 103
28
29
30
38 4 10-3
39 a 2 4'3
40 36*3
0*54
0-51
0*46
0*0031994
•0033071
•0034142
21 31 2*59
21 27 6*68
21 23 10*77
14 48 '0
14 51-4
14 56-8
14 49-4
'4 53 '9
15 01
54 '3*4
54 *5-8
54 45 '5
54 18-6
54 34'9
54 57 '6
31
40 58 46-4
S.o'39
0*0035207
21 19 14*86
15 3*7
15 7'5
55 IO ' 8
55 *4'9
Digitized by VjOOQ IC
IV.
APRIL, 1 882.
59
MEAN TIME.
i
1
THE MOON'S
Longitude.
Latitude.
Age.
Meridian Passage.
Noon.
Midnight
Noon.
Midnight.
Noon.
Upper.
Lower.
1
2
3
r ♦
166 47 52*8
178 48 17-7
190 55 36-5
1 *
172 47 187
184 51 0-7
197 2 13-4
1 w
S. 4 54 32-1
4 3° 37*0
3 54 i6'5
9 ¥
S. 4 44 10*8
4 *3 5 6 *3
3 3i 47'5
d
13*0
14*0
15-0
h m
10 42-9
11 25*2
12 8*8
h m
23 5-9
23 46*8
* *
4
i
203 10 58*5
215 35 23-4
228 9 53*8
209 21 59*4
221 51 18-4
234 31 197
3 6 411
* 9 3 f s
S. 1 5 185
2 39 ii*7
1 38 11*0
S. 31 20*1
i6*o
17*0
i8*o
12 54-3
13 42*2
14 32-7
31*2
1 17-9
2 7*2
7
8
9
*4<> 55 47' 3
*53 54 39'4
267 8 2o a 5
247 23 29- 3
260 29 31*7
273 51 19-7
N. 3 20' 6
1 13 56
2 20 21*4
N.o 38 17*9
1 47 16-4
2 51 519
19*0
20'0
21*0
15 25-6
10 20*2
17 15-7
2 58-9
3 5**7
4 47'9
10
11
12
280 38 41*3
294 27 6-4
308 34 1-3
287 30 34 '9
301 28 i6'9
3i5 44 7'5
3 21 i8 # j
4 12 I'5
4 48 46*4
3 48 11*2
4 32 22*2
5 512
22*0
23*0
24*0
18 IIM
19 5-8
19 59-6
5 +3'*
6 386
7 32-8
»3
14
IS
322 58 15*6
337 3 6 35 3
352 23 36-0
330 15 57-1
344 59 25-4
359 48 io-5
5 8 i6-7
5 8 156
4 47 553
5 10 48*0
5 36-5
4 30 *3'7
25*0
26'0
27'0
20 52*7
21 455
22 38*8
8 26*2
9 i9'i
10 12*1
16
18
7 12 8-8
21 54 17-5
36 22 32*1
14 34 30-8
29 10 34' 1
43 29 30*2
4 8 2I'I
3 " 335
2 5 4'°
3 42 13-7
2 30 57-1
1 28 35*2
28*0
29*0
o-6
23 33-1
* #
28*4
11 58
12 0*6
12 56*4
19
20
21
50 30 56-2
64 15 48-2
77 35 52 '4
57 26 26*7
70 58 555
84 6 49-6
N. 51 ii" 1
S. 23 50-3
1 35 26*0
N.o 13 30*6
S. 1 18*6
2 8 47*2
i-6
2*6
3-6
1 24*6
2 20*8
3 i6 # o
13 52-8
14 48-6
15 42-9
22
23
*4
90 32 4-5
103 7 2*7
US 24 34'4
96 51 59-9
IO9 17 43 '2
121 25 IO*7
2 40 1*7
3 35 4'6
4 18 52*6
3 8 52-3
3 58 27-7
4 36 12*3
4 1
4 9-2
4 59-8
5 47'5
16 34-9
17 24*0
18 io*3
26 1
27
127 29 7*2
139 25 22 '7
151 17 59O
133 27 594
145 21 515
157 14 17-0
4 50 "'3
5 8 5^-3
5 H 4*5
5 1 '5*7
5 13 9*<>
5 11 38*2
9 -6
6 32*6
7 i5'8
7 57-8
18 544
19 36-9
20 i8*6
28
*9
30
163 II I4'6
175 8 58-9
187 14 23-3
169 9 20' I
181 10 33*2
193 20 46*3
5 5 50-8
4 44 i9'4
4 9 586
4 56 43' 6
4 28 42-4
3 48 i5'8
io'6
12*6
8 39*4
9 "3
10 .4'4
21 0*2
21 42-7
22 26*7
3*
199 29 56*8
205 42 6*7
& 3 *3 43*9
S. 2 56 35 • 2
13*6
10 49-5
23 12*9
Digitized by
Google
6o
APRIL,
[882.
V.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
Bight
Ascenaion.
Var.
iuio*».
Declination.
Var.
inio-.
J
Right
Aacenaion.
Var.
into**.
Declination.
Var.
in io*».
Satubday I.
Monday 3.
h m s t
t * »
h m a a
9 » *
II 347"
«8'494
N. 041 28*2
108-71
O
12335983
19-265
S. 7 55 i*2
8 522-9
•03*7*5,
I
II 538*20
18-499
03035*8
108-77
I
123555*50
19-292
I03M7,
2
II 729*21
18*505
1943*0
N. 849-9
108 *8a
2
123751*33
19-319
8 1542*9
103-18:
3
II 920*26
i8*5ia
108-87
3
12394733
*9'347
826 1*1
102*89]
4
11 11 ii'35
18-518
S. 2 3*5
108-91
4
124143-50
'9 375
83617*6
xoa-58]
5
11 13 2-48
18-525
12 57*0
108-93
5
124339-83
19-403
84632*1
10a - 26
6
111453-65
•8*533
023 50-7
108-97
6
"45 36-33
i9*43X
85644*7
xox-94
i
11 1644-87
18541
034 446
xo8*99
2
124733*00
19*460
9 6554
ioi*6i
11 1836-14
18*550
045 386
05632-6
109-00
124929*85
125126-88
19*490
917 40
101-27
9
11 2027-47
11 22 18-85
18-559
109-00
9
19*520
927 10*6
100*93
IO
18*568
1 726*6
109*01
10
125324*09
19-550
93715*1
10057
ii
11 24 10*29
18-578
1 1820*7
109*00
11
12 55 21-48
19-580
94717-4
100*20
12
11 26 1 -79
18-588
1 29 14-0
108*98
12
125719-05
I259 l6-8l
19-611
957!7'5
99*831
'3
112753-35
18-600
140 85
xo8*97
>3
19-642
10 7154
99 '451
H
11 2944-99
X8-612
151 2*2
108 * 93
H
13 114*75
X9673
10 17 10*9
99o6
*5
11 31 36*69
18-623
* i55'7
108-90
15
13 312-89
19*706
1027 4*i
103654*9
98*6 7 |
16
113328-46
18-635
2 1249*0
108-86
16
13 511*22
19738
98-26
*7
11 35 20*31
18648
2 2342*0
X08-81
II
13 7 974
19-770
10 46 43 * 2
97*8 4
18
113712-24
18 -66a
2 34 34*7
108*76
13 9 846
19*803
105629*0
97*4*
*9
u 39 4-25
114056-34
18-675
245271
xo8*7o
19
13 11 7-37
19836
11 612*3
97*00,
20
18-689
256 19- 1
108*63
20
13 13 649
19-870
11 15 53*0
96-56
21
11 4248*52
18-704
3 7 IO*6
318 1*7
108-55
21
13 15 5*81
19-903
11 25 31*0
96-11
22
114440*79
18*719
108-47
22
13 17 533
'9'937
11 35 65
S.1144388
9S-65 1
*3
114633*15
i8*735
S. 3 28 52 * 2
108-38
23
13 19 5-05
19*972
95i8
1
lVV3i
IT 2.
TUESDA
T 4. |
114825*61
11 50 18*17
18*752
S. 3 39 4*'*,
108* a8
13 21 4-99
20*007
S.1154 8-5
947a,
1
18-768
3 50 31*6
xo8-x8
I
13*3 5'H
20*042
12 3354
94**3
2
11 52 10-82
18*784
4 120*4
108-07
2
1325 5-49
20*077
12 12 59-3
93'74,
3
u 54 3-58
18' 80a
412 8*4
xo7'94
3
1327 6-o6
10-1x3
12 22 20*3
93**5
4
115556*44
18-8x9
42255-7
xo7*8a
4
•>3 29 6-85
2CX49
12 31 38-3
9**74,
5
115749*41
18-838
43342*3
107-70
5
13 31 7*85
20-185
124053-2
9 2-22 j
6
115942-49
12 135*69
18-857
44428*1
107-56
6
1333 9-07
20*222
1250 5-0
91*70,
2
18*876
4 55i3-o
5 5 56-9
5 1640*0
107-40
7
13 35 1051
20-258
12 50 13*6
13 819*0
9i*i7,
12 329*00
18895
X07*a5
8
133712-17
20-295
9063;
9
12 522*43
12 7I5-9 8
18-915
107-09
9
133914*05
ao-3 3 a
13 1721*1
90-08
10
18935
5 27 22*0
538 30
106*92
10
1341 16*16
ao-370
13 26 19-9
89-52
11
12 9 965
18-956
106-74
11
1343 1849
20-407
13 35 i5"3
88-94
12
12 11 3-45
18*978
54842-9
106-56
12
134521*04
*o*444
1344 7*2
88*37
13
12 12 57*38
18-999
55921*7
xo6-37
*3
13472382
13 49 26* 84
20-483
13 52 557
87*78
*4
121451*44
12 1645*63
12 18 39*96
'9*oax
6 9593
x 06-17
14
20*522
14 140*6
87*19
*5
19043
62035*7
105-97
1?
13 51 30*08
20*560
14 1022*0
86*59
16
19-067
6 31 10*9
641 44*8
105-76
16
13 53 33-5 6
20*599
141859*7
85 98
l l
122034-43
19-090
105*53
17
i3 55 37'*7
20-638
H*7 33^7
85*35
18
12 22 29*04
19-114
652 17-3
7 *48'3
105 -a9
18
135741*21
20*677
1436 39
84*7*
*9
122423*80
1226 18*70
19-138
105*06
19
'3 59 45*39
14 149*80
20*716
144430*3
84*08
20
19-163
7 13 18*0
104*82
20
20-755
1452520
15 1 n*6
83*44
21
12 28 13*76
19-188
72346*2
104-57
21
«4 3 54*45
20-795
82*78
22
1230 8*96
i 9 *ai3
73412-8
104-30
22
14 5 59*34
20 835
15 9263
8a*ia
*3
1232 4*32
*9**39
74437*8
104-03
*3
14 8 4*47
20*875
151737*0
8i*44
24
123359*83
19-865
S. 7 55 I"*
103*76
24
14 10 9-84
20-9x5
S.i52543*6
8076
Digitized by
Google
VI.
APRIL
', J
[882.
6l
MEAN TIME.
THE MOON'S RIGHT ASCENSH
3N AND DECLI
NATION.
1
inio*".
Declination.
Var.
inio».
j
Wednesday 5.
h m • s
i * *
b m ■ •
t * *
O
14 10 9*84
20*915
S. 15 2543-6
153346*1
80*76
155511-38
22*803
S.2018 8*4
37*88
I
141215*45
20-955
80*07
I
155728*30
22*837
2021 52*5
36-80
2
14 1421*30
141627-39
ao*995
154144*4
79*37
2
15 59 45 '4*
22-870
2025 30*0
35-70
3
21*035
154938*5
78*65
3
16 2 2-74
22*904
2029 o*9
34* 60
4
141833*72
21*076
155728*2
77*93
4
16 420-27
16 6 3799
22-937
20 32 25-2
33*50
5
14 2040*30
21*117
16 513*7
16 1254*8
77*22
5
22*970
203542*9
32*38
6
142247*12
21*157
76-48
6
16 855*91
23*002
203855*8
2041 58-0
31-26
i
142454*18
21*198
162031*4
75*73
7
16 11 14-02
23-033
30*14
1427 1*49
21*238
1628 3*5
74'98
8
16 13 32*51
16 15 50*80
16 18 0*47
162028*33
162247*36
23*065
204455-5
29*01
9
1429 9*04
14 31 16*84
21*279
1635 311
74*22
9
23-097
204746-1
27*87
IO
21*320
164254*1
73*44
10
23*128
205029*9
2053 6*8
26*73
ii
143324*88
21*361
16 50 I2'4
72*66
11
23*158
45-58
12
143533*17
2 I '402
165726-0
71*87
12
a3i87
2055 36*8
24*42
13
143741*70
21*443
17 4 34' 8
71*07
'3
1625 6*57
23*217
2057599
23*26
M
143950*48
21*484
171138-9
70*27
H
162725*96
23*245
21 015-9
22*09
l S
144150*51
1444 8-78
1446 18*30
21*525
171838*0
•59-45
II
162945*51
*3'*73
21 225*0
20*92
16
21*566
172532*3
68*63
1632 5*23
23*301
21 427*0
21 021*9
«9'74
17
21*607
1732 21*6
67*79
IS
163425*12
163045*16
23-328
18*56
18
144828*06
21-648
1739 5*8
66*95
43*354
21 8 9-7
»7'37
19
145038-07
21*688
174545*0
66*io
19
1639 5*37
23-381
21 950-4
16*18
20
145248*32
145458*82
21*729
1752 19-0
65*24
20
164125*73
23*406
21 11 23*9
14*98
21
21*770
175847*0
18 5 11*6
64-38
21
164346*24
1646 6*90
43-431
21 12 50*2
13*78
22
1457 9*56
21*810
63*51
22
43-455
21 14 93
12*58
*3
145920*5421*851
S.18 11 30*0
62*62
23
164827*70
43-479
S.21 15 21*1
ii*37
Thuesi
>AY 6.
Saturd
AY 8.
15 131*77
21*892
S.18 1743*0
6i-73
165048-65
23*503
S.2I 1625*7
10*15
1
15 3 43*M
21*932
18 23 50*7
60*83
I
1653 9*74
1655 30*96
23*526
21 1722*0
21 l8 12*8
8-93
2
15 5 54*95
15 8 6*90
21*972
18 29 52*9
183549*6
59-91
2
43-548
7*71
3
22*012
58*99
3
165752*31
23*569
2Il8 55*4
21 19 30*6
6-48
4
15 10 19*09
22*052
18 41 40*8
58*07
4
17 01379
23*590
545
5
15 12 31*52
22*091
184726*4
57-13
i
17 235*39
23-610
21 1958*4
21 20 l8*8
4*02
6
151444*18
151657:09
22*131
1853 6*4
185840-7
56*19
17 457-"
17 7i8-95
23*630
2*78
1
22*171
55*43
I
23*650
21 2031*8
1-54
15 19 10*23
22*209
19 4 92
54 # »7
17 940-91
23-668
2I20 37*3
0*30
9
15 21 23*60
22*248
19 9320
53*3*
9
17 12 2*97
23-686
21 2035-4
0*94
10
152* 37*21
22*287
191449-0
5* '34
10
171425*14
23-704
21 20 26*0
2*19
11
152551*05
22*326
1920 0*1
5i'35
II
171647-42
23*721
21 20 9*1
3'44
12
1528 5*12
22-364
1925 5*2
50-36
12
17 19 9*79
43-737
211944*7
4*69
13
153019*42
22*402
1930 4-4
49*37
13
1721 32*26
43-753
21 10 12*8
21 18 35*3
21 1746*2
5*95
H
153233-95
22*440
193457-6
48*36
14
172554*82
1726 17*47
23*768
7*22
*5
153448-70
22-477
19 39 44*7
47-34
*5
23-782
8*48
16
1537 3*68
15 3918*88
22515
194425-7
46-32
16
172840*20
43*795
21 1651*6
9'73
'7
22*552
1949 0-5
45 '*9
17
1731 3*01
23-808
21 15495
10*99
18
154134*30
22*589
195329-2
44*26
18
*7 33*r9o
1735 4887
23*822
21 14 39-7
12*27
19
*5 43 4995
1546 5*81
22'626
195751-6
43-21
19
23*833
21 13 22*3
13-53
20
22'66l
20 2 7-7
42*16
20
1738 11*90
23-844
21 II 57-4
14*79
21
154821*88
22*697
20 617*5
41*10
21
174035-00
23*856
21 IO24-8
16*06
22
155038-17
22-733
20 1020*9
40-03
22
174258-17
23*866
21 844*7
17-33
*3
155254-6722-768
20 14 17*9
S.2018 8-4
3896
23
174521*39
43875
21 656*9
18*60
H
I5 55II-38;22-8o 3
37-88
24
174744*6723-884
S.21 5 1*5
19-87
Digitized by
Got
o
62
APRIL, 1882.
VII.
i
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
9
10
11
12
"3
15
16
;i
*9
20
21
22
24
O
I
2
3
4
5
6
1
10
11
12
13
14
:i
:i
20
21
22
23
24
1747
I7 50
17 52
17
54
57
59
2
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9
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114
1 16
18
1821
tl
8 28
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[8 33
[8 3 S
[8 37
[8 40
[8 42
•67
•00
31-37
54*79
18-25
41-75
5-28
28*84
52-42
16-03
39*66
26 '96
50*62
18
25-29
48-95
12-00
36*23
59-85
*3'45
47-03
14-20
37-9613-945
l- 63 »3 944
*3*943
13-94*
*3-940
23-938
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13-918&
OHDAT
45
47
49
5*
54
o S7
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[9 1
'■>%
, 9
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[9 16
[918
920
923
925
928
930
9 32
9 35
9 37
9 39
942
23*8848.21 5 1
23-892 21 258
23-899 21 047
23*907 20 58 29'
23-913 2056 3
23-919 205330
23*924 205049'
23-928 2048 o
23-933 2045 3'
23*937 2042 O'
23-939 203848'
23-942 203529"
23-943 20 32 2'
23-944 202828'
23*945 202446
202056'
20 1659'
20 12 55'
20 843
20 4 2V
I95956
19 55 22
I9504O
19455*'
IO.
.194054"
19 35 50
57-5923-913 I93038
21*0523*907 I9252O
44*4723*900 19 19 53
7*8523*893 19 14 20
31-1923-886 19 839
54*4823*878 iq 251
17-7223*870 185656'
40-9223*862 185054*
4-0623-853 184445'
27-1623*844 18 3828'
50-1923*834 1832 4'
13-1723*824 18 25 34"
36*0823-813 18 18 56
58*9323*803 18 12 11
21-7223*793 18 520
44-4423*782 17 58 21
7-1023*771 17 51 16
29-69^3*758 1744 3
52-2023*746 173644
14-6423*734 1729 18
37-0123*722 17 21 46
59-3023-708 17 14 7
21*5123-6958.17 621
19-87
. 21-14
8 22*41
6 23-68
7 a 4'95
26*22
27*49
28-77
30*03
31*29
32*57
33-83
3S-o8
36-35
37*62
38*88
40*13
41-38
42*63
43*88
45 '13
46*37
47* 60
48-83
10-58:23*923
34-1023*918
4)50*07
3 51-30
8 52*53
O 53'74
54-96
J 56*18
8 57-38
58-58
59-78
60-98
62-17
63 '35
64-52
65*70
66*87
68-03
69-18
70*34
71-48
72*62
73*74
74-87
75-98
77*09
78*20
1942
1944
1947
1949
19 51
19 54
1956
1958
20 I
20 3
20 5
20 8
20 10
20 13
20 15
20 17
2020
2022
2024
2027
2029
2031
2034
2036
2038
2041
2043
20-45
2048
2050
2052
2055
2057
2059
21 2
21 4
21 6
21 9
21 11
21 13
21 15
21 l8
21 20
21 22
21 25
21 27
21 29
21 32
2134
23-695
23*682
23-669
23-655
23*642
23*628
23-614
23-599
23-585
23*571
23-557
23-543
23-528
23-5-3
23*498
23*483
23-468
23*453
23*438
23-423
23-408
23-393
23-378
23-363
2I-5I
43*64
5-70
27-67
49-56
n*37
33-10
54' 74
16*29
37-76
59'H
20-44
41-65
2-77
23-80
44'74
5-59
26-35
47-02
7-60
28*10
48*50
8'8i
29*04
Wednesday
49-^7
9*22
29*18
49-05
8*83
2853
48*I4
7*67
27*11
46*47
5"75
24-95
44-06
3-10
22*06
40*94
59*74
i8-47
37*13
55 -7*
14-24
32*69
51-08
23-3488.
23-334
23*319
23-304
23*290
23*276
23*262
23*248
23-233
23*220
23-207
23-193
23-179
23-167
23*153
23*140
23*128
23*116
23*104
23-093
23*081
23*070
23-059
9'40J23'048
27-65123-0378.
7 621
65828
65029
642 24
634 12'
62553
61728
6 857
6 20'
55136
5 4*47'
5 33 51'
5 H 49"
5i54i
5 627
4 57 7'
44741'
438 10'
428 32'
41849*
4 9 *'
3 59 T
3 49 V
3 39 -* 1
12.
32851-
31835*
3 8H*
25748-
247 16'
2 3640-
22558-
2 15 12*
2 4 20-
I53 24*
I42 23*
I3II7-
1 20 7*
I 852*
05732-
046 9'
03440-
023 8-
o 11 31-
9 59 5*'
948 6-
93617-
92424-
9 12 28'
9 027-
Digitized by
Google
Fill.
APRIL, 1882.
63
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Right
Ascension.
Var.
inio*».
Declination.
Var.
inio*».
Thursday
9
10
11
12
*3
14
15
16
*2
18
*9
20
21
22
*3
o
I
2
3
4
5
6
9
10
11
12
13
H
15
16
18
"*9
20
21
22
*3
24
h m •
213427
213645
2139 3
21 41 22
2 I 43 40
2I4S58
2148 15
2I5O33
21 52 51
"55 9
215727
215944
22 2 2
22 4 19
22 6 37
22 855
22 11 12
22 13 30
221547
22 18 4
22 20 22
22 22 39
22 24 56
22 27 14
22 2931
22 31 48
22 34 6
22 36 23
22 38 40
22 40 58
22 43 15
22 45 32
22 47 49
22 50 7
22 52 24
225441
225659
22 59 16
23 *33
65
84
98
05
•07
•03
:SJ
•6l
•37
•O9
•76
"39
98
54
06
55
01
44
85
23
59
94
•27
23-037
23*028
23*018
23*008
22*998
22*989
22*981
22*973
22*964
22*957
22*949
22*942
22*935
22*929
22*923
22*918
22*913
22*908
22*903
22*899
895
22*893
22 ' 890
22*887
13-
o / *
9 027
84823
83616
824 4
8 11 50
75932
74710
7 3446
722 18
7 947
63713
644 37
63157-
t'V 5
6 6 30
5 53 42"
54052
5»7 59
515 5*
5 *
449
436
4*3
S. 4 958
Friday 14.
3 5i
6 8
826
231043
23 13 o
23 15 18
23 17 36
231953
23 22 11
23 24 29
58
88
'7
'45
•73
•01
•29
'I 7
85
•14
•44
•75
•08
•4*
*79
•'7
58
02
48
•98
•51
•07
-68
•32
•01
884 S.
22*883
881
22* 880
880
22*880
22*880
22*880
22-881
882
22*884
22*887
22*892
22*896
22*899
22*904
22*908
22*913
22*919
22*924
22*931
22-938
22*944
22*952
N.
35651'
34342'
33032*
3 1720'
3 4 *
25051*
23735.
2 24 17"
2 1058"
'57 39'
144 18
13057-
1 17 34
1 4 11
05048
03724
02359
o 10 34"
o 2 50
16 15
02941
043 6
056 31
1 956-
1 23 21
*
120*37
120*98
121*58
I22'l6
122*73
123*28
123*83
124*36
124-88
125*39
125*88
126*36
126*83
127*28
127*72
128*14
128*55
128*94
129*32
129*70
130*06
130*40
130*72
131*03
131*33
131*62
131*88
132-14
132*38
132-61
132*82
133*02
133*20
*33'37
133*52
133*65
'33*77
133*88
133-98
134*06
134*13
134*17
134-20
134*22
134*22
134*21
134-18
134*13
134-07
Kigbt
Ascension.
Var.
inxoa.
Declination.
Var.
inio"».
b 1
2324
23 26
2329
2331
2333
*3 35
2338
2340
2342
*3 45
*3 47
2349
2352
23 54
2356
2359
o 1
o 3
o 5
o 8
o 10
O 12
15
o 17
Satueday
N.
n s
29*01
46*74
4'5;
22*36
40*24
58*18
16*17
34*22
5*'33
10*51
*8- 7 5
47-06
5 'tl
23-88
42*40
0*99
iq-66
38-41
57-23
16*14
35*13
54-21
13*38
32-6
8
22-952
22*959
22*968
22*977
22*985
22*994
23-003
23*013
23*024
23*035
23*046
23-057
23*068
23*081
23*093
23*105
23*118
23*131
*3*"44
23*158
23*173
23*188
23*202
23*216
N.
5'
2*
6 13 56*
Sunday
o 19
022
024
026
o 29
031
033
36
038
040
043
045
047
050
052
054
057
059
1 I
I
I
I
I
I
I
51*97
11-40
3°'93
5o-55
10*27
30-08
49 '99
io-oo
30-11
50*32
10*63
31*05
51-57
12*19
32-92
53*76
14*70
35-75
56*91
18-17
39*54
i-oi
22 *6o
44*29
23*231
23*247
23*263
23*278
23*294
23-310
23-327
23*343
23*360
*3*377
*3*394
23*412
23*428
23*446
23*464
23*482
«3'499
23*517
23*535
23*552
23-570
23*588
23*607
23*624
N.
6 - o9 13-643
N.
15-
o » *
1 23 21'
13645-
150 9-
2 3 32*
2 16 54'
2 30 l6*
*43 37*
25657-
31015-
32333-
33649-
3 5° 5"
4 3»8-
4 16 30-
42941-
44250-
4 55 57*
592-
5 22
5 48
6 1
1550-
62648-
16.
63937-
6 52 24-
7 5 8"
71749*
730 28*
743 3'
Z 5 2 35 '
884-
8 20 30*
8 3*53-
84512*
85727'
9 9 39-
921 48*
93352*
945 53'
9 57 49'
10 942*
10 21 31-
103315-
104455-
10 56 30*
11 8 I'-
ll 19 28
11 3050
w
34* °7
33*99
33*91
33* 80
33'67
33*54
33*39
33*23
33*03
32-83
32*62
32*40
32*15
31*89
31*62
31*32
31-02
30*69
3°*35
30*00
29*63
29*25
28*85
28*44
28*02
*7*57
27-10
26*63
26*14
25*63
25*12
24*58
24*03
«3*47
22*88
22*29
21-69
21*07
20*43
19*77
19*10
18*42
17*73
17*02
16*30
15*56
14*81
14*05
13*28
Digitized by
Googk
6 4
APRIL, 1882.
IX.
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
i
Right
Ascension.
Var.
in io*.
Declination.
Var.
inio"».
1
Right
Ascension.
Var.
into**.
Declination.
Var.
imo*».
Monday 17.
Wednesday 19.
tans s
1 » *
h m 8 ■
O / H 9
I 16 6*09
23-643
N.II 3050*5
113*28
O
3 11 20*23
24-243
N.l8 42 41'3
62*94
i
1 18 28 00
23*661
1142 7*8
112*48
I
31545*70
3 16 11*17
*4-*45
1848 55*2
61*70
2
I 2050-02
23-678
II 5320*3
111-67
2
24*246
1855 ''7
60-46
3
133 12*14
23-697
12 427*0
uo'86
3
3 18 36*65
24*247
19 i 0*7
59* 20
4
12534-38
23-715
12 15 30*6
110-03
4
321 2*13
24-247
19 652-1
57*93
5
I 27 56-72
23732
12 2628*2
109-18
5
3 23 27-61
24*246
191235-9
56*67
6
I 30 19*17
23-750
12 37 20-7
108-33
6
32553*08
3281855
24*245
19 18 12 -I
S5'4'
7
13241-72
23-768
1248 8'I
107-47
2
24*243
1923 40 -i
54*14
8
135 438
23-785
12 58 50-3
X06-58
33044*00
24-240
1929 1 -J
52-86
9
13727-14
23-803
13 927*1
105-68
9
3 33 9'43
33534*84
24*237
193415-1
51*58
10
I 39 50'0I
23*820
I3I9 58-5
104*77
10
24*233
19 3920-8
5031
11
I 42 12*98
23-837
I3 30 24-4
134044-8
103-86
11
338 0*23
24*228
194418-8
49"03
12
14436-05
23853
102*93
12
34025*58
24-223
1949 9-1
47*74
«3
14659-22
23-871
13 50 50*6
14 i 8-7
xoi*99
13
3 42 50* 90
24-217
195551*7
19 58 26*6
4646
14
I 4922-50
23*888
101*03
H
345 16*18
24*210
45-17
'5
I 5145*88
23-904
14 II 12*0
100*07
15
34741*42
3 50 6*6i
24*202
20 253*7
43-87
16
1 54 9*35 *3'9»°
1421 95
99*09
16
24*194
20 713-0
42-58
:i
1 56 32-92 '43-936
1431 i-i
98*11
17
35231*75
3545684
24*186
20 11 24*6
41*29
1 5856-58
23-952
144046*8
97-12
18
24*177
20 15 28*5
40-00
19
2 120-34
23-967
145026*5
96*11
19
35721*87
24*166
20 19 24*6
38*70
20
2 344-18
2 6 8-i2
23*982
15 o-i
95-08
20
3594683
24**54
2023 12*9
202653*4
37-40
21
23-997
15 927-5
94*05
21
4 2 11-72
24-143
36*11
22
2 832-15
24*012
15 1848*7
93*02
22
4 4 3 6 '55
24*131
20 3026-2
34'8i
23
2 10 56*26 24*026
N.1528 3-7
91*97
23
4 7 1-29 24-118
N.20 33 51*1
33*51
TUESDA
Y l8.
Thurbdj
LY 20.
2 13 20*46
24-040
N.15 37 12*3
90*90
4 9*5'9 6
24*104
N.20 37 8-3
32*22
I
21544-74
24053
154614-5
89*83
I
4 115054
24*089
2040 17-7
30*92
2
2 18 9-10
24-067
155510*3
16 359*6
88*76
2
41415*03
24-073
204319*3
2046 13*1
29*62
3
22033-54
2 22 58-05
24-079
87*66
3
41639-42
24*058
28*33
4
24-092
16 12 42*2
86-56
4
419 3-72
24*042
204859*2
27*03
5
2 25 22 64
24-104
1621 18*3
85*46
5
421 27-92
24*024
205137-5
25*73
6
2 2747*30
24*116
162047-7
1638 10*4
84-34
6
4 23 52-01
42615-99
24*006
2054 8-o
20 56 30*8
24 - 44
1
2 30 12-03
24- 127
83*22
1
23*987
23*16
2 32 36*82
24*138
164626*3
82*08
42839-85
23*968
205845*9 21-87
9
235 1*68
24-148
165435*4
80*94
9
431 3-60
23*948
21 053*2
20*58
10
2 37 26*60
24-158
17 237*6
79-78
10
43327*23
23*927
21 252*8
19-30
11
23951-58
24*168
17 10 32-8
78-62
11
43550-72
23*905
21 444*8
18-02
12
242 l6*6l
24*177
17 l8 21*1
77-46
12
43814-09
23 883
21 629-0
16-73
13
24441*70
24-186
1726 2'3
76*28
13
44037-32
23-861
21 8 5*5
15*45
14
247 6*84
24*193
173336*5
75-u
14
4 43 °4*
a3-837
21 934*4
14-18
*5
2 49 32*02
24-201
1741 3-6 73-93
i|
445*3'37
44746-17
23813
21 10 55*7
12*91
16
25157-25
24*208
174823-6
175536-4
72*73
l6
23-788
21 12 9*3
11 '64
\i
2 54a2-5I
24-214
71-52
IS
450 8*82
23*763
21 1315*4
10*38
2 5047*82
24*220
18 241-9 70-31
45231-32
23*737
2i 14 13*9
9*12
*9
259 I3-I5
24*225
18 940*1
18 16 31 *I
69*10
19
45453-66
23*710
21 15 4*8
7*86
20
3 1 38*5*
24*231
67-89
20
45715-84
23*683
21 1548*2
6*61
21
3 4 3*92 124*235
1823 14*8
66-66
21
4 59 37'85
23*654
21 16 24*1
5*36
22
3 629-34124-238
18 29 51*0
65*42
22
5 i59' 6 9
23-626
21 16 52*5
4-12
23
3 854-7824-241
18 36 19*9 64*19
23
5 4*^-36
23*597
21 1713-5
2-88
24
3 11 20-23 [24-243
N.184241'3' 62*94
24
5 642-85 23*567
N.21 1727*0
1,63 1
Digitized by VjOOQ IC
X.
APRIL, 1882.
65
MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
o
1
2
3
4
5
6
7
8
9
10
11
12
13
H
IS
16
'.5
20
21
22
*3
O
I
2
3
4
5
6
2
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
Bight
Ascension.
h m •
5 642-85
5 9 4'1<>
5 II 25*28
5 1346*22
5 ID 6*96
51827-51
5 2047*86
523 8*02
52527-96
52747-70
530 7-23
53226-55
5 34 45 '65
5 37 4-53
53923-19
54141-63
5 43 59-84
546 17-82
5 48 35-57
55053-09
5 53">'37
5 55 *7'4i
5574421
6 o 0-77
Friday
s
13-567
23-536
23-505
*3'473
*3'44i
23-408
23-376
*3'34*
23-307
23-273
23-238
23*202
23-165
23-128
23-092
23-054
23-016
22*978
22-939
22*900
22 '860
22*820
22*780
22-739
21.
o t
N.21 1727*0
21 I733
21 17 31-9
21 17 23*3
21 17 7*4
21 1644
21 l6 IV8
21 15 3§-2
21 1451*4
21 13 594
21 13 O
21 II 54
21 IO4O
21 9 20
7 53
6 19
4384
250-5
055-8
205646*1
205431*2
2052 9*6
N.20 49 4i*4
21
21
21
21
21
20 :
♦
1-63
O
041
I
0-82
2
2*04
3
3*26
4
4'47
1
5-67
6-87
j
8*07
9-26
9
10*44
10
11*62
11
12-78
12
13*95
13
15-11
14
16-26
15
17-41
16
18*55
17
19-68
18
20*8l
19
21-93
20
23-04
21
24-15
22
25*24
23
Saturday 22.
2 17-08
433-15
648-96
, 9 4 1 3
6 11 19*85
61334-91
61549-72
618 4-27
620 18-56
622 32*59
62446-37
62659-88
629 13*13
63I 20*12
63338-84
63551-30
638 3*49
640 15-41
642 27-06
64438-45
64649-57
649 0-42
6 51 ii-oi
653 21-32
24.655 3i'3 6
22*698
22*657
22-615
22-574
22-532
22*489
22-447
22*403
22*360
22-317
22-274
22*230
22-187
22*143
22*098
22-054
22*009
21*964
21*920
21*876
21-831
21-787
21-742
21*696
21*651
N.2047 6
204425
2041 37
20 38 43
203542-9
2032 35*9
202922*6
2020 3*i
2022 37*4
2019 5-5
20 15 27-5
20 11 43-4
20 753-3
20 357*2
195955-2
i9 5547'3
195133-6
19 47 14
194248-7
1938 17-8
2858-8
o
19
1924 11
191917*7
N.1914 18*9
26-33
27-42
28-49
29-57
30-63
31-69
32-73
33*77
34-80
35-82
36-84
37-85
38-85
39*84
40-82
41*80
4* *77
43*74
44-68
45^3
46-58
47*51
48-43
49*34
50-25
65531-36
65741-13
65950*64
*5
6 17
825
1034
1242
449
88
'84
54
97
13
02
6 S
16 57-00
19 4-09
21 10*92
23 17-48
25 23-78
2729*81
2935*58
3141*09
3346*34
35 5J-3
3756*01
40 o
42 4
44 8
N.
46 12*43
48 15*89
50 19*10
52 22*06
5424-78
5627*25
5829*48
031*46
2 33*20
4 34-71
635*98
8 37*01
8 1037*81
8 1238*38
8 1438*72
81638*83
8 1838-72
82038-38
8 22 37*83
82437*05
8 2636*06
82834*86
8 3<>33-44
8 32 31*81
83429*98
21*651 N,
21-607
21-563
21-517
21-472
21*428
21-383
21-338
21*293
21*248
21-203
21*160
21-116
21*072
21*028
20*983
20*940
20*897
20-853
20-810
20*767
20-725
20*682
20-639
Monday
20-597 N.
20-556
20-514
20*473
20-432
20*392
20351
20*310
20*271
20*232
20*192
20-153
20*114
20-076
20*038
20*000
19-963
19-926
19-889
19*853
19-818
19-782
19-746
19-712
19-678
N.
9 14 18
9 9H
9 4 5*2
85850*3
85-
848^4*8
842 34-2
83658
831 17
82532
8 1941
81345*4
8 744*8
8 139
7 55*9
7 49 *4
74*54
73630
730 1
72527-7
7 1649-6
710 7
7 320-2
65629
64933-4
64233-5
63529*5
6 28 21*2
621 8*8
6 13 52-2
6 031*6
559 7*1
5 5i38'5
5 44 6-o
53629*7
52849*5
521 5*6
51317-9
5 5*6-5
45731*5
44932-8
441 30-6
43324-9
42515-6
417 2-
4 846*
4 027-3
352 4-6
34338-5
50-25
51*14
52-03
52-92
53*79
54-66
55*5*
5637
57-21
58-05
58-88
59-70
60-50
61*31
62*11
62*89
63-67
64-43
65*20
65*97
66*72
67*45
68*18
68-90
69*62
70*33
71*03
7^-73
72*42
73-10
73*76
74'4*
75*09
75*73
76*37
77*01
77-63
78*26
78*87
79*47
80-07
80-66
81*25
81*83
82-40
82-97
83*52
84-07
84*62
(nautical almanac, 1882.)
Digitized by
Got
o
66
APRIL,
i8Sz.
XIa
MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
i
Right
Asoenaion.
Var.
Inio-.
Declination.
Var.
inio-.
1
Right
Asoensioii.
Var.
inio*'.
DeetinatfotL
Var.
inio*.
Tuesday 25.
Thubsday 27.
h m ■ ■
1 a *
h m ■ a
t *■ 1
O
83429*98
83627*94
19-678
N.i3 43 3«-5
84*62
IO 5 50-73
18*569
N. 6 717*7
103-18
X
19-643
1335 92
132636-7
85 15
I
io 742*11
18-558
5 56 5r9
103*42
2
8 3825*70
19*610
85*67
2
io 9 33 42
1011.24-68
18-548
54636*7
103*64
3
84023-26
»9'577
13 18 i' 1
86*19
3
18*538
53614-2
103*88
4
84220*62
19544
13 9 22*4
86*71
4
10 13 15-88
18528
52550-2
104'H
i
84417-79
19-512
13 040*6
87*23
5
10 15 7-02,
18*519
515*49
104*32
84614-77
19*48*
12 5155*7
«7'73
6
10 1658*11
18-512
5 458-4
104-53
1
848 11-56
*9'449
1243 79
88-22
1
IO 1849*16
18*504
45430*6
104*73
850 8*i6
19-418
1234 17-1
88-71
I0 20 40'l6
18*497
444 i'6
104*93
9
852 4-57
854 0*80
19-387
122523-4
12 1620*8
89*19
9
I0 22 31*12
18*490
433 31-4
105-13
10
*9*357
89-67
10
I0 24 22'04
1026 12*93
1028 3-78
18*484
423 O'O
105-32
11
855568s
19-328
12 727-4
115825*2
90*13
11
18-478
412275
105*50
12
85752-73
19-298
90*60
ia
18-473
4 i54-o
105*67
13
85948*43
9 *43"9 6
19*2619
11 4920*2
91-05
*3
102954-61
18-468
3 5II9-4
105*85
«4
19-24*
11 40 12*6
91-50
»4
103145-40
18-464
34043-8
106' 01
;§
9 3 3933
19-213
11 31 2*2
9" "95
!i
1033 36*18
18-462
3 30 73
106-17
9 5 34*5*
19*186
11 21 49-2
92-38
103526*94
103717-68
1039 8-41
18458
3 1029*8
3 8513
106*33
:i
9 7*9 56
19-159
11 12 33-6
92*82
!?
18-456
106*48
9 9H'43
19*133
ii 3154
93 '*4
18-454
2 58 I2*0
106*62
l 9
91119*15
19-107
105354-7
93-66
19
104059-13
18-453
24731*9
106-75
20
91313-71
915 813
19*082
104431-5
94-07
20
104249*85
104440-56
104631-27
18-452
2 3651-0
106-88
21
19-057
1035 58
94-48
21
18-452
226 9*3
2 1526-8
107-02
22
917 2-39
9 1856-51
19-032
102537-7
94*88
22
18-452
107*13
23
19*007
N.io 16 7-2
95 '»7
23
104821*99
18*453
N. 2 443*7
107-24
WSMBSl
>AT 26.
Peida
r 28.
92050-48
18*983
N.io 634*4
93-66
105012*7118*454
N. I53 59-9
107*35
I
9**44*3*
92438*01
92631-57
18-961
95659-3
96-04
I
1052 3*44
i8'457
143*5-5
107*45
2
18-938
94721-9
96*42
2
105354-19
18-459
1 32 30*5
107-55
3
18-916
93742-3
928 o*5
96*78
3
I0 55 44-95
18-462
12144-9
1 1058*8
107-64
4
9282c *oo
930 18-30
18-894
97 '»4
4
10 57 35-74
18-466
107*73
i
18*873
9 18 16-6
97*50
1
105926-54
18-469
1 012-2
107-81
932 11*48
18-853
2 ?3°' 5
85842-3
97*86
11 H7-37
11 3 8*23
18-474
040251
03837*7
107-88
I
9 34 4' 54
18*833
98*20
'7
18*480
*07*93
93557-48
18-813
«4f 5*1
98-54
8
11 459-13
11 650*06
18*486
027499
108*00
9
93750-30
18*793
83859-8
98-87
9
18*49*
017 1-7
108*06
10
93943-00
18-775
829 5-6
99-20
10
11 841*03
18*498
N. 613*2
108*11
11
941 35-60
18-758
819 9-4
99*53
11
11 1032*04
18*505
S. 435' 6
108*15
12
9 43*8-09
94520-48
18-740
8 911*3
99- 84
12
11 1223*09
18513
015 24*6
02013-8
108*18
*3
18*723
759" # 3
100-15
*3
11 14 14-19
11 16 535
11 1756-56
111947-83
18*522
108*21
14
94712*76
18*706
749 9'5
>oo-45
H
18*531
037 V\
108*23
:§
9 49 4'95
18*690
7 39 5'9
100-75
»5
18-540
04752*6
05842*2
108*26
95057-04
18*674
729 0*5
71853-4
7 844-6
101*04
16
18*551
108*27
17
95249-04
18*659
101-33
3
11 21 39-17
18*561
1 931-8
108*27
18
95440-95
18-644
101*61
11 23 30-56
18*571
1 2021-4
108-27
19
9563277
18-631
65834*1
101*89
19
11 2522*02
18*582
1 31 II'O
108*26
20
95824-52
i8'6i8
648 21*9
102' 16
20
112713-55
18-595
142 0-5
108*24
21
10 oi6*i8
18*604
638 8-2
102*42
21
11 29 5*16
18-607
15249-9
108*22
22
10 2 7*77
10 359*28
18*592
62752-8
102*68
22
11 3056*84
18-620
2 339*2
2 1428*3
108*20
23
18*580
6 17 36-0
102-93
23
11 3248-60
18*634
108-17
, !4
10 5 5o-73
18*569
N. 6 717*7103-18
*4
113440-45
18-648
S. 225 17-2
108-13
Digitized by
Googk
XII.
AP
RIL
I, I 88*. .
67
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
Bight
Ascension.
Var.
imo-.
Declination.
Var.
in 10".
1
Bight
Ascension.
Var.
imo-».
DcettrMdon.
Var.
inio->.
Satubday 29.
Sunday 30.
b m 8 ■
i *
h m 8 ■
O / * '9
O
113440-45
II 36 32*38
18-648]
S. 2 25 17-2
236 5-8
108*13
121957-63
19*138
S. 642 0*6
105*14
I
18*663
108*08
I
12 21 52*54
19*165
652 30*8
104-93
2
II 3824*40
II 4016*52
18*678
24654*2
108*03
2
12 2347-61
19- 192
7 *59-7
104*70
3
18-69*
25741-2
5 829*8
107*97
3
I2 25 42'85
19-210
7 13 27-2
104-47
4
II 42 8*72
18*709
107*90
4
12 27 38*25
19*248
723534
7 34i8 1
104*24
5
1 1 44 1*03
it- 727
31917*0
107*83
5
12 29 33*82
19*276
103*99
b
"45 53*44
18-744
330 3*7
107*75
6
12 }I 29-56
19*305
7444i # 3
103*74
1
«4745-96
18-76*
34050*0
107-67
j
123325-48
'9 '334
7 55 3 ,0 i°3-48
11 49 38*58
i*779
35135-7
107*58
I2 35 2I*57
19*364
8 szyi
103*22
9
11 51 31*31
18-798
4 2 20*9
107*48
9
123717-85
19*394
81541-6
los*94
10
115324*15
18*817
413 54
107*37
10
123914-30
19.424
825584
8361V4
84626*7
102*65
11
115517-11
18-837
423493
107*25
11
12 41 10-94
19*456
102-36
12
11 57 10-19
18-858
4 34 3* '4
44514*8
4 55 50-5
107-13
12
1243 7-77
19*488
102*07
13
11 59 3-40
12 056*73
18-878
107*01
13
1245 4-79
19519
85638-2
101*76
14
18-899
106-88
14
1247 2*00
124859*41
I9-5S*
9 647-8
101*43
*5
12 250*19
12 443 # 7»
12 637*51
18*921
5 637-3
106*73
»5
19 584
91655-4
101*11
16
18943
5X7I7-3
106*58
16
12 5O57-0I
19*617
927 i-i
100*78
17
18*967
52756*3
■ 5 3» 34'4
106*43
17
12 52 54-81
19651
9 37 4'8
100-45
18
12 831-38
18-989
106-27
18
12 5452*82
12 5051*03
19*685
947 6-5
100*10
19
12 1025-38
19-013
549"'5
106*10
19
19*719
957 6-o
99*73
20
12 12 19-53
19*038
5 5947*6
105-92
20
125849-45
13 048*08
19*754
10 7 V3
99*37
21
121413-83
12 16 8-28
19*063
6 10 22*6
105-73
21
19*789
10 16584
99*00
22
19-088
62056-4
105-54
22
13 246-92
19-824
102651-3
103641-8
98*62
*3
12 18 2*88
19-113
63129-1
105*35
23
13 445*97
19*860
98*22
H
121957-63
19*138
S. 642 o-6
105*14
H
13 645*24
19*897
S. 104629*9
97-82
PHASES OF THE MOON.
April 3
c
) Fall Moon - - - -
b m
5 46-7
10
<[
Last Quarter --------
18 29-9
*«7
i
) New Moon ---------
9 38-0
24
1
First Quarter --------
18 55-9
April 15 1 i
Perigee ----.--•-.
h
* • 5
27 1 4
Apogee - . -
- - 3
Digitized by
Google
68
APRIL, 1 88a.
XIII.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L.
PX.
»
and
Noon.
of
Ul\
of
VP.
of
IX*.
of
Position.
diff.
diff.
diff.
diff.
o t n
1 *
t 1
1 ft
i
Aldebaran W.
98 6 33
3054
99 35 39
3049
101 4 51
67 56 37
3044
102 34 9
3039
Mars
W.
6c 5 12
56 18 15
3125
66 30 51
3220
3215
69 22 29
60 40 28
3209
Pollux
W.
3 '45
57 45 30
3138
59 i* 54
3129
3121
Regulus
w.
19 20 13
3219
20 46
3i9i
22 12 20
3168
23 30 8
30 58 53
3 '47
Spica
E.
35 27 17
80 59 36
3040
33 57 54
3<>37
32 28 27
3032
3026
Antares
E.
3056
79 30 33
3051
78 1 24
3047
76 32 10
3<>43
2
Aldebaran W.
no 2 14
3013
in 32 n
3006
113 2 16
3001
114 32 27
80 53 38
2994
Mars
W.
76 33 32
3179
78 6
3172
79 26 48
3166
3'59
Pollux
W.
68 44
3082
69 29 16
3074
70 57 58
3066
72 26 49
3<>59
Regulus
W.
jo 58 35
69 4 24
3070
32 27 22
67 34 31
3058
33 5 6 23
66 4 31
3047
35 25 37
64 34 23
3036
Antares
E.
3016
3010
3004
2999
3
Mars
W.
88 9 48
31*5
89 37 27
3118
9* 5 15
82 53 10
45 5* 17
3111
92 33 11
84 23 16
3'°4
Pollux .
W.
79 53 *5
3020
81 23 13
44 25 36
3013
3005
2997
Regulus
W.
42 55 6
2986
*977
2968
47 27 10
2958
Antares
E.
57 * 57
108 37 15
2969
55 3 1 5
2963
54 6
2957
52 28 59
2951
a Aquila
E.
34i5
107 15 15
3400
105 52 58
3386
104 30 25
337*
4
Mars
W.
99 55 5
3067
101 23 55
3060
102 52 54
3052
104 22 2
3044
Pollux
W.
91 56 10
2961
93 27 12
50 36 24
*953
94 5$ 24
2946
96 29 45
2939
Regulus
W.
55 4 H
2915
2906
58 8 36
2898
59 4o 58
2889
Antares
E.
44 5i 33
2922
43 19 4*
96 10 5
2916
41 47 44
29x2
40 15 40
2906
a Aquil©
E.
97 34 2
33i3
3303
94 45 57
3*94
93 21 38
3284
5
Mars
W.
in 50 4
3006
113 20 9
2999
114 50 23
2992
116 20 46
2984
Pollux
W.
104 8 46
2903
105 41 1
2896
107 13 25
2890
108 45 57
2883
Regulus
W.
67 25 33
2846
68 59 1
2837
70 32 41
2829
72 6 31
2820
Antares
E.
3* 33 53
86 17 33
2888
84 52 18
2886
29 28 42
2886
27 56 5
2886
a Aquila
E.
3246
3*40
83 26 56
3*35
82 1 28
3*30
FomalhautE.
113 49 37
3393
112 27 13
3373
in 4 26
3353
109 41 16
3334
6
Regulus
W.
79 58 3*
2777
8i 33 30
2768
83 8 40
*759
84 44 1
2750
Spica
W.
25 57 5*
2760
27 33 12
2750
29 8 45
2741
30 44 30
*733
a Aquila
E.
74 5* 53
102 40 18
3214
73 ^7 1
3213
72 1 7
3*'3
70 35 13
3214
FomalhautE.
3*53
101 15 12
3*38
99 49 48
3**5
98 24 9
3213
7
Regulus
W.
92 43 44
38 46 13
63 26 19
2706
94 20 16
2696
95 57 1
2688
97 33 57
2678
Spica
W.
2686
40 23 11
62 48
2677
42 21
2668
43 37 44
2659
a Aquila
E.
3232
3240
60 35 26
88 18 15
3*49
86 50 56
3260
FomalhautE.
91 12 24
3158
89 45 25
135 8 32
3 '49
3142
3'34
Son
E.
136 37 48
3046
3<>3S
133 39 2
30*4
132 9 l 9
3013
8
Regulus
W.
105 41 47
263a
107 19 58
2622
108 58 23
2613
no 37
2603
Spica
w.
5i 47 50
5» 8 15
2610
53 26 3i
2601
55 5 25
2590
56 44 33
2580
a Aquibe
E.
3346
50 44 57
337»
49 22 8
3401
47 59 53
3435
FomalhautE.
79 3* »
3104
78 4 7
123 6 12
3100
76 35 58
3097
75 7 45
120 3 18
3095
Sun
E.
124 37 18
2958
2946
121 34 52
*935
2924
9
Spica
W.
65 3 44
2528
66 44 18
2518
68 25 6
2507
70 6 9
*497
Antares
W.
20 12 34
2673
21 49 50
2643
23 27 47
2616
25 6 20
*593
a Aquila
E.
41 19 56
67 46 25
3688
40 2 56
37^3
38 47 15
64 50 9
3848
37 33 2
3945
FomalhautE.
3099
66 18 14
3104
3110
63 22 n
31x8
Sun
E. 112 21 51
2866
no 48 49 2855
109 15 32
2843
107 42 2831
Digitized by
u<
o
XIV.
4
AP
RLL, 1
88
2.
69
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L.
P.L.
1
and
Midnight.
of
XV*.
of
XVIH*.
of
XXI*.
of
Position.
diff.
diff
diff,
diff
Of*
; »
9 9
1 *
I
Aldebaran W.
104 3 33
70 48 27
3034
105 33 3
3029
107 2 40
3024
108 32 23
3018
Mars
W.
3*03
I 2 *t 3 1
65 36
26 33 57
3198
73 4o 45
3191
75 7 5
3185
Pollux
W.
62 8 13
3»4
3105
6 J 4 9
28 1 52
3097
66 32 22
3090
Begulus
W.
25 6 21
3x28
31x2
3097
29 30 5
3083
Spica
E.
29 29 13
30a 2
27 59 28
30x6
26 29 35
30x2
H 59 37
3006
Antares
E.
75 * So
3037
73 33 *3
3032
7* 3 50
3027
70 34 11
302 X
1
Aldebaran W.
116 2 47
2989
117 33 13
2983
119 3 47
2977
120 34 29
86 42 18
2970
Mars
W.
82 20 36
3«S3
83 47 4*
3H7
8| H 55
76 54 18
3*39
3133
Pollux
W.
73 55 49
36 55 *
63 4 9
3051
75 *4 59
38 24 47
61 33 47
3043
3035
78 *3 47
3028
Begulus
W.
3026
30x5
39 54 4i
60 3 18
3005
41 24 47
*995
Antares
E.
2993
2987
2980
58 3* 4i
2975
3
Mars
W.
94 1 16
85 53 3*
48 58 15
3096
95 29 3°
3089
9 6 57 53
88 54 3*
3082
98 26 24
3<>74
Pollux
W.
2989
87 23 58
2983
*975
90 25 16
2967
Regular
W.
2950
50 29 30
2941
52 57
2932
53 3* 35
46 23 17
2923
Antares
E.
50 57 45
*945
49 26 23
2939
47 54 53
*934
2928
a Aqnilss
E.
103 7 37
3359
101 44 33
3347
100 21 16
3335
98 57 45
33*5
4
Mars
W.
105 51 20
3<>37
107 20 47
3030
108 50 23
3022
no 20 9
3014
Pollux
W.
98 1 15
2931
99 35 55
2924
101 4 43
2917
102 36 40
2910
Regulus
W.
01 13 31
2880
61 46 15
2872
64 10 10
35 38 51
89 7 38
2863
65 52 16
2855
Antares
E.
38 43 20
91 57 8
2902
37 " 13
2898
2894
34 6 *4
87 42 40
2891
a Aquil©
E.
3276
90 32 28
3267
3260
3*53
5
Mars
W.
117 51 19
no 18 38
2976
119 22 2
2969
120 52 54
2962
122 23 55
*954
Pollux
W.
2876
in 51 27
2870
r 13 24 24
76 49 10
23 18 25
2864
114 57 29
2858
Begulus
W.
73 40 33
26 23 28
2811
75 14 46
2803
*795
78 *3 45
21 46 s
2785
Antares
E.
2888
24 50 54
2892
2899
2909
a Aquilae
E.
80 35 54
3225
79 10 15
3221
77 44 31
3218
76 18 43
3216
FomalhautE.
108 17 44
3317
106 53 52
3299
105 29 39
3**3
104 5 8
3267
6
Begulus
W.
86 19 34
2741
87 55 19
*733
89 3i 15
2723
91 7 24
2715
Spica
w.
32 20 26
69 9 20
96 58 15
2723
33 56 35
2714
35 3* 56
66 17 41
2706
37 9 28
64 5i 57
2696
a Aquilae
E.
3215
67 43 29
3218
3221
3226
FomalhautE.
320X
95 3* 7
3x89
94 5 45
3178
92 39 10
3x69
7
Begulus
W.
99 11 6
2669
100 48 27
2660
102 26 1
2650
104 3 48
2641
Spica
W.
45 15 '9
2649
46 53 7
2640
48 31 8
2630
50 9 22
2620
a Aquiloe
E.
57 45 16
3*73
56 20 33
3287
54 56 6
3304
53 3 1 59
33*4
FomalhautE.
85 23 27
3126
83 55 49
3x19
82 28 3
127 38 48
3114
81 n
3108
Sun
E.
130 39 22
3002
129 9 12
2991
2980
126 8 10
2969
8
Begulus
W.
112 15 51
*594
"3 54 54
2584
115 34 11
*575
117 13 40
2565
Spica
W.
58 *3 55
46 38 16
2570
60 3 31
2560
61 43 21
2550
63 23 25
42 38 5
*539
a Aquilae
E.
3473
45 17 21
3SI7
43 57 16
3567
3623
FomalhautE.
73 39 29
118 31 30
3094
72 11 12
3<>94
70 42 55
3<>95
69 14 39
3096
Sun
E.
2913
116 59 27
2901
115 27 9
2890
"3 54 37
2879
9
Spica
W.
71 47 27
2486
73 29
*475
75 10 48
2465
76 52 51
*453
Antares
W.
26 45 25
2571
28 25
2551
30 5 2
*533
31 45 29
25x5
a Aquilae
E.
36 20 28
61 54 23
4058
35 9 46
60 26 45
4x89
34 1 10
4341
32 54 55
4517
FomalhautE.
3x26
3»37
58 59 *i
3i5i
57 32 13
3166
Sun
E.
106 8 13
2820
104 34 11
2808
102 59 53 «795
101 25 19
2784
o
70
APRIL, 1 88a.
xv.
MEAN TIME.
LUNAR DISTANCES.
*
Star's Name
and
Position.
Noon.
P.L.
of
diff.
HI*.
PJV
of
diff.
vih.
P.L.
of
diff.
IX*.
P.L.
of
diff.
10
Spica W.
Antares W.
FomalhautE.
Sun E.
t it
78 35 11
33 20 21
56 5 23
99 50 3°
*443
2499
3185
*77*
t *
80 17 45
35 7 36
54 3» 56
98 15 25
2431
2484
3207
2760
/ n
82 36
36 49 12
53 12 55
96 40 4
2420
2468
3231
*747
1 *
83 43 42
38 31 10
51 47 22
95 4 27
2409
*453
3260
2736
II
Spica W.
Antares W.
FomalhautE.
Sun E.
92 23 10
47 6
44 49 47
87 2 24
*354
2386
3479
2675
94 7 5i
48 49 55
43 28 59
85 25 11
*343
2373
3544
2663
95 5* 48
50 34 8
42 9 23
83 47 42
2331
2360
3618
2652
97 38 2
52 18 40
40 51 8
82 9 57
23a!
2348
3703
2640
12
Spica W.
Antares W.
FomalhautE.
Sun E.
106 28 3
61 5 37
34 46 5i
73 57 **
2268
2290
437*
*S*3
108 14 50
62 51 51
33 4i 4
72 17 59
2258
2279
4576
2572
no 1 52
64 38 21
32 38 19
70 38 20
2248
2269
4816
2561
in 49 8
66 25 6
5' *l s6
68 58 38
2238
2258
510X
*55*
*3
Antares
a Aquilae
Sun
W.
w.
E.
75 22 36
2210
4146
2503
77 i° 48
33 34 12
5» 54 59
2202
3955
*494
78 59 12
34 46 36
57 J 3 37
2194
3789
2485
80 47 49
36 1 50
55 32 3
2186
3^43
2478
H
Antares
a Aquilae
Sun
W.
W.
E.
89 53 38
42 51 54
47 l 40
2153
3138
*444
91 43 17
44 19 18
45 19 8
2148
3069
a44 o
93 33 3
45 48 5
43 3 6 30
2x43
3006
H35
95 22 56
47 18 n
41 S3 45
2139
2951
2431
IS
Antares
a Aquilae
Sun
W.
W.
E.
104 33 44
55 3 54
33 18 53
2x26
2750
2421
106 24 4
56 39 27
31 35 49
2125
2722
2422
108 14 25
58 15 38
29 52 45
2x25
2697
2423
no 4 46
59 52 22
'28 9 43
2x25
2675
2426
l 9
Sun
Mars
Pollux
Regulus
W.
E.
E.
E.
21 13 24
59 So 11
61 11
97 40 34
2696
*535
2450
2369
22 50 9
58 9 47
59 28 36
95 56 14
2708
2552
2468
2384
24 26 38
56 29 46
57 46 38
94 12 16
2722
2570
2488
2399
26 2 49
54 50 10
56 5 8
92 28 39
*735
2588
2509
2415
20
Sun
Mars
Pollux
Regulus
W.
E.
E.
E.
33 5« 52
46 38 31
47 45 6
83 56 24
2814
2685
2623
*497
35 33 1
46 6 42
82 15 7
2831
2705
2648
2515
37 648
43 24 58
44 28 53
80 34 15
2849
2726
2675
2532
38 40 12
4i 48 53
42 51 39
78 53 46
2866
2748
2704
2550
21
Sun
Jupiter
Mars
PoUux
Regulus
Spica
W.
W.
E,
E.
E.
E.
46 21 34
17 4S 13
33 55 47
34 55 29
70 37 20
"4 30 5
2956
2689
2864
2868
2638
2614
47 52 42
19 22 8
32 22 42
33 22 29
68 59 22
122 51 29
2974
2706
2890
2909
2655
263a
49 23 28
20 58 40
30 50 10
31 50 21
67 21 42
121 13 17
2992
2723
2916
2952
2672
2649
50 S3 5i
22 34 49
29 18 n
30 19 8
65 44 25
119 35 28
3009
2740
2944
3000
2690
2665
22
Sun W.
Jupiter W.
Aldebaran W.
Regulus E.
Spica E.
58 20 20
30 30 4
22 30 27
57 43 Si
in 31 57
3096
2823
2842
*777
*747
59 48 34
32 4 2
24 4 1
56 8 53
109 56 19
3"4
2838
2847
2794
2763
61 16 27
33 37 40
25 37 28
54 34 17
108 21 3
3130
2854
2853
2810
2778
62 44 1
35 10 58
27 10 48
53 2
106 46 6
3H7
2870
2861
a8a7
*794
23
Sun W.
Jupiter W.
Aldebaran W.
Regulus E.
Spica E.
69 57 1
42 52 34
34 54 39
45 H 11
98 56 16
3«3
*943
2908
2909
2866
71 22 43
44 23 58
36 26 48
43 42 3
97 23 13
3*37
2956
2919
2924
2879
72 48 8
45 55 6
37 58 43
42 10 15
95 50 27
3*5*
2970
2928
2940
289a
74 13 1$
47 25 56
39 30 26
40 38 47
94 17 58
3265
2982
2939
2956
2905
Digitized by
Googk
XVI.
APRIL,
[88
2.
71
MEAN TIME.
LUNAR DISTANCES.
. Star's Name
£ and
M Poahion.
Midnight*
P.L.
of
diffi,
XV*.
px.
•f
diff.
XVH1>.
PX.
diff.
XXI*.
P.L.
of
dilf.
IO
Spica W.
Antares W.
FomalhautE.
Sun £.
/ *
85 *7 4
40 13 29
50 22 23
93 28 35
a 39 8
*439
3*93
*7*3
Of*
87 10 41
48 58 3
91 52 26
2387
14*6
333°
27x1
1 *
88 54 35
43 39 f
47 34 *6
90 16 1
2376
2412
337a
2700
/ H
90 38 44
45 22 2?
46 11 38
88 39 21
2364
2398
342*
2687
ii
Spica W.
Antares W.
FomalhautE.
Sun E.
99 23 3i
54 3 29
39 34 H
80 31 57
S310
*33*
3801
1628
101 9 16
55 4» 36
3$ 19 *3
78 53 4o
2300
2325
3914
26x7
102 55 16
57 33 59
37 6 17
77 15 »
2289
2313
4044
2606
104 41 33
59 *9 4o
35 55 21
75 3 6 *i
2278
2302
4196
*594
12
Spica W.
Antares W.
FomalhautE.
Sun E.
"3 36 39
68 12 7
30 43 19
67 18 36
2329
2248
543*
2540
115 24 24
69 59 23
29 51 51
65 38 19
22x9
2239
5841
2531
117 12 23
71 46 53
*9 4 57
63 57 49
2210
2229
6327
2521
119 36
73 34 37
28 23 1
62 17 5
2201
22x9
6928
25x2
*3
Antares
a Aquilffl
Sun
W.
E.
82 36 37
37 19 38
53 50 19
2179
3515
2470
84 *5 37
38 39 45
52 8 23
2171
3403
2463
86 14 48
40 1 58
50 26 18
2X65
330S
2456
88 4 8
41 26 4
48 44 3
2159
32x6
2450
H
Antares
a Aquilaa
Sun
W.
W.
E.
97 12 56
48 49 25
40 10 54
2135
2901
2427
99 3 *
50 21 43
38 ^7 58
2132
2857
2425
100 53 12
5i 54 57
36 44 59
2130
28X8
*4*3
102 43 26
53 *9 *
35 1 57
2x27
2782
2422
*5
Antares
a Aquilae
Sun
W.
W.
E.
in 55 7
61 29 35
26 20 45
2x26
2656
2429
113 45 * 6
63 7 14
H 43 5i
2128
2639
H34
115 35 42
64 45 16
23 1 5
2x30
2624
2440
117 25 55
66 23 38
21 l8 28
2133
26x2
»449
19
Sun
Mars
Pollux
Regulus
W.
E.
E.
E.
27 38 42
53 10 58
54 24 7
90 45 26
2750
2607
2530
2431
29 14 16
51 32 12
5* 43 35
89 2 35
2766
2626
2552
2448
30 49 29
49 53 52
S 1 3 34
87 20 8
2782
2645
«575
2464
32 24 21
48 15 58
49 *4 4
85 38 4
2798
2665
2598
2481
20
Sun
Mars
Pollux
Regulus
W.
E.
E.
E.
40 13 14
40 13 17
41 15 4
77 13 42
2884
2769
2733
2567
4i 45 53
38 38 9
39 39 7
75 34 *
2902
2792
2763
2585
43 18 10
37 3 3 1
38 3 50
73 54 46
2920
28x6
2796
2602
44 Jo 3
35 29 H
36 29 17
7* 15 54
2938
2839
2831
2620
21
Sun
Jupiter
Mars
Pollux
Regulus
Spica
W.
W.
E.
E.
E.
E.
52 23 52
24 10 36
27 46 48
28 48 55
64 7 32
117 58 1
30a 6
»757
*974
3053
2708
2682
53 53 3*
26 16 3
27 19 48
62 31 2
116 20 57
3045
»774
3005
31x3
2725
2699
55 « 49
27 21 3
24 45 57
*5 5i 54
60 54 56
114 44 15
3062
2790
3039
3x81
2741
2715
56 51 45
28 55 44
23 16 33
24 25 22
59 '9 "
"3 7 55
3079
2806
3078
3»5«
2759
273X
22
Sun W.
Jupiter W.
Aldebaran W.
Regulus E.
Spica E.
64 11 14
35 43 55
28 43 57
51 26 10
105 11 30
3162
2885
2869
2843
2809
65 38 9
38 16 33
30 16 50
49 52 38
103 37 14
3^77
2900
2878
2860
2823
67 4 45
39 4» 5*
3J W 43
48 19 28
102 3 16
3*93
29x5
2888
2838
68 31 2
41 20 52
33 22 17
46 46 39
100 29 37
3209
2929
2898
2893
2852
*3
Sun W.
Jupiter W.
Aldebaran W.
Regulus E.
Spica E.
75 38 9
48 5^ 31
4i * 55
39 7 39
92 45 45
3278
2996
2949
2972
29x6
77 I 46
50 26 49
42 33 12
37 36 51
91 13 47
3291
3007
2959
2988
2928
78 27 8
S» 56 53
44 4 16
36 6 23
89 42 4
33<>3
3018
2969
3004
2940
79 5; 16
53 * 6 43
45 35 8
It 36 '§
88 10 36
33H
3030
2978
3020
1 *95i||
Digitized by
Google
72
APRIL, 1882.
XVII.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
PX.
P.L.
P.L.
P.L.
1
and
Noon.
of
IIP.
of
VP.
of
IX".
of
Position.
diff.
diff.
diff.
diff.
9 *
.'
/ *
1 »
1 »
*4
Sun W.
81 15 11
33* 6
82 38 52
3337
84 2 21
3347
85 25 38
3358
Jupiter W.
.54 50 18
3<>40
56 25 41
3051
57 54 50
50 6 35
3061
59 *3 48
5J 36 4i
3071
Aldebaran W.
47 5 48
25 6 2 7
86 39 22
2987
48 36 17
2996
3005
3013
Regulus E.
3<>37
31 37 O
85 8 20
3053
30 7 53
83 37 32
3©7f
28 39 8
3089
Spica E.
2961
2972
2981
82 6 56
2990
*5
Sun W.
92 19 21
66 45 52
3400
93 4i 38
68 13 49
3407
95 3 47
69 41 38
3413
96 25 49
34X9
Jupiter W.
3110
3117
3x23
71 9 20
3129
Aldebaran W.
59 t 5 l
19 36 6
3048
60 34 4
3<>55
62 5 9
22 8 28
3060
63 32 8
3065
PoUux W.
3780
20 51 29
3689
3617
23 26 44
3558
Spica E.
74 3$ 35
3030
73 7
118 29 9
3<>37
71 37 33
3042
70 8 12
3048
Antares E.
119 58 16
3053
3059
117 9
3064
115 31 16
3069
26
Sun W.
103 14 30
78 26 17
3440
104 36 1
3444
105 57 28
3446
107 18 53
3447
Jupiter W.
3150
79 S3 26
315*
81 20 33
3155
82 47 36
3156
Aldebaran W.
70 55 40
3083
72 24 10
3086
73 52 37
3087
75 21 2
3089
Pollux W.
30 11 20
3376
3i 34 4
3354
32 57 13
3334
34 *o 45
3316
Mars W.
26 31 47
3379
27 54 27
337*
29 17 17
3364
30 40 15
3357
Spica E.
62 45
108 8 9
3068
61 14 12
3070
59 45 *6
3073
58 16 44
3074
Antares E.
3087
106 39 44
3090
105 n 22
3092
103 43 2
309a
27
Sun W.
114 5 38
3449
115 26 59
3447
116 48 22
3446
118 9 46
3444
Jupiter W.
90 2 34
82 42 49
3158
9i *9 34
3157
92 56 35
85 39 34
3156
94 23 37
3153
Aldebaran W.
3090
84 11 11
3089
3087
87 7 59
45 38 57
3085
PoUux W.
41 22 53
3251
42 48 2
3240
44 13 *4
3230
3220
Mars W.
37 3 6 43
333*
39 18
33*7
40 23 58
47 56 14
33**
41 47 44
33X7
Spica E.
50 53 31
3077
49 H 53
3076
3074
46 27 33
3073
Antares E.
96 21 38
3093
94 53 *°
3092
93 25 1
3091
91 56 41
3090
28
Sun W.
124 57 31
34*7
126 19 17
34*3
127 41 7
3418
129 3 3
3413
Jupiter W.
101 39 33
3138
103 6 56
3U4
104 34 25
3129
106 1 59
3124
Aldebaran W.
94 30 49
3070
95 59 35
54 16 7
3066
97 28 26
3061
98 57 *3
3056
Pollux W.
52 40 29
48 48 3
3176
3167
55 4* 55
3158
57 9 54
3150
Mars W.
3289
50 12 27
3284
SI 3$ 57
3*77
53 1 35
3*7°
Regulus TV.
15 58 7
3333
17 21 40
3286
18 46 8
3*48
20 n 20
3*i7
Spica E.
39 3 *5
84 34 16
3058
37 34 *4
83 5 34
3053
j6 5 18
81 36 48
3049
34 3 6 6 3044
Antares E.
3074
3070
3065
80 7 56
3061
29
Jupiter W.
113 21 30
100 23 44
3094
114 49 47
3087
116 18 12
3080
117 46 46
3<>73
Aldebaran W.
3028
107 53 22
3022
109 23 .8
3015
no 53 2
3007
PoUux W.
64 27 25
3106
65 55 27
3097
67 23 40
3087
68 52 5
3079
Mars W.
60 6 44
3*35
61 32 12
3226
62 57 50
3219
64 23 36
3210
,
Regulus W.
27 25 11
27 8 31
3110
28 53 8
25 38 39
3°95
30 21 24
3080
31 49 58
3066
Spica E.
3017
3010
24 8 38
3004
22 38 30
2997
Antares E.
72 42 2
3032
71 12 29
3026
69 42 49
3019
68 13
3«3
30
Pollux W.
76 16 57
3031
77 46 3 1
3022
79 16 16
3012
80 46 14
3003
Mars W.
7 1 35 4
3166
73 1 54
3*57
74 28 55
3H7
75 56 8
3M7
Regulus W.
39 «6 56
60 41 42
3003
40 47 5
2990
42 17 30
2979
43 48 9
56 8 59
2967
Antares E.
*975
59 10 58
2967
57 40 4
2958
2951
a Aquil® ( E.
in 56 43
3439
no 35 10
3420
109 13 16
3402
107 51 2
3386
Digitized by
Google
XVIII.
*
AT
KJ-L, 1
88
2.
73
MEAN TIME.
;
LUNAR DISTANCES.
Star's Name
PX.
P.L.
P.L.
P.L.
1
aad
Midnight
of
XV*.
of
xvm*.
of
XXI*.
of
Position*
diff.
diff.
diff.
■
ditx
Of*
# »
t *
O 9 *
*4
Sun * W.
86 48 43
3367
88 11 37
3376
89 34 21
3384
90 56 56
65 17 47
3393
Jupiter W.
60 52 33
S3 6 38
3079
62 21 8
3087
% 1 ».
3096
3104
Aldebaran W.
3021
54 3 6 25
3029
3<>35
57 35 3i
22 48 8
3042
Regulus E.
V *2 45
3109
25 42 47
3130
24 i| 14
77 3 6 14
3153
3179
Spica 9 E.
80 36 31
1999
79 6 17
3008
30x5
76 6 20
3023
»5
Sot W.
97 47 44
72 36 54
34*4
99 9 33
34*9
100 31 17
3433
101 52 56
3437
Jopiter W.
3134
74 4 23
3139
75 31 45
3H3
76 59 3
3146
Aldebaran W.
65* 1
3069
66 29 47
3073
67 58 29
3077
69 27 7
28 49 5
3081
Pollux W.
24 46 5
3508
26 6 21
3466
27 27 23
343i
340X
Spica E.
68 38 59
305a
67 9 51
3057
65 40 49
3062
64 11 53
109 36 38
3065
Antares E.
114 2 29
3<>74
112 33 47
3078
in 5 10
3082
3084'
1
26
Sot W.
108 40 16
3449
no 1 37
3449
in 22 58
3450
112 44 l8
3450
Jupiter W.
84 14 38
76 49 25
3157
85 41 38
3158
87 ? 37
3^59
88 35 36
3*59
Aldebaran W.
3090
78 17 47
3091
79 46 7
309 X
81 14 28
3091 j
Pollux W.
35 44 38
3301
37 8 48
3287
38 33 i5
3*74
39 57 57
3*5*1
Mars W.
32 3 21
5648 3
335*
33 26 32
3346
34 49 50
334i
36 13 14
3337
Spica E.
3076
55 19 24
3077
53 50 46
3078
52 22 9
3077
Ajitares E.
102 14 43
3094
100 46 26
3095
99 18 10
3095
97 49 54
3095
*7
Sun W.
119 31 13
344*
120 52 42
3439
122 14 14
3435
123 35 51
343*
Jupiter W.
95 50 42
88 36 27
315a
97 17 49
3149
98 45
3146
too 12 14
3142
Aldebaran W.
3083
90 4 57
3081
91 33 30
49 56 45
3077
93 2 8
3<>74
Pollux W.
47 4 42
33x1
48 30 38
3202
3193
51 23 2
3185
Mars W.
43 " 3 6
331a
44 35 33
3307
45 59 37
3301
47 23 47
3296
Spica E.
44 58 5o
3070
43 30 4
88 59 53
3068
42 1 15
3065
40 32 22
3061
Antares E.
90 28 19
3087
3085
87 3i 25
308 X
86 2 52
3078
28
Sun W.
130 25 5
3407
131 47 14
340X
133 9 30
3395
134 31 52
3387
Jupiter W.
107 29 39
3119
108 57 26
3»3
no 25 20
3107
in 53 21
3101
Aldebaran W.
100 26 26
3°5*
101 55 35
3047
103 24 50
3040
104 54 13
3034
Pollux W.
58 37 3
3141
60 4 23
3X33
61 31 53
57 16 16
3x24
62 59 34
3"5
Mars W.
54 26 21
3264
55 5i 14
3*57
3250
58 41 26
3*43
Regulus W.
21 37 9
33 6 48
3190
23 3 31
3167
24 30 20
3x46
25 57 34
28 38 16
3x27
Spica E.
3039
31 37 24
3034
3° 7 54
3028
3022
Antares E.
78 38 59
3056
77 9 55
3050
75 40 44
3045
74 " 27
3039
29
Jupiter W.
119 15 29
3065
120 44 22
3056
122 13 25
3048
123 42 38
116 54 12
3040
Aldebaran W.
112 23 6
3001
113 53 18
*993
115 23 40
73 18 25
2985
2977
Pollux W.
70 20 40
3069
71 49 27
3060
3051
74 47 35
3041
Mars W.
65 49 33
3202
67 15 40
3X93
68 41 57
3184
70 8 25
3*75
Regulus W.
33 '8 49
3052
34 47 57
3039
36 17 21
3026
37 47 1
3014
Spica E.
21 8 14
2990
19 37 49 2983
18 7 15
*977
16 36 34
2970
Antares E.
66 43 3
3005
65 12 56 2998
63 42 41
2990
62 12 16
2983
3°
Pollux W.
82 16 23
2993
83 46 45 2983
85 17 19
2973
86 48 6
2963
Mars W.
77 23 33
3x28
78 5» 9
3118
80 18 57
3107
81 46 58
3097
Regulus W.
45 19 3
2956
46 50 n
*945
48 21 33
2933
49 53 10
2922
Antares E.
54 37 45
106 28 29
*943
53 6 20
*935
51 34 45 2927
50 3
29x8
.
a Aquil© E.
3369
105 5 37
3353
103 42 26
3338
102 18 58
33*3
Digitized by
Google
74
MAY, i88i.
i.
AT APPARENT NOON.
i
►
THE SUN'S
Apparent
Right Ascension.
Var.
in
i hoar.
Apparent
Declination.
Var.
in
I hoar.
Sidereal
Time of
the Semi-
diameter
passing
the
Meridian.*
Equation of
Time,
tobe
subtracted
from
Apparent
Time.
Var.
in
i hoar.
Mon.
Tues.
WedL
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
Sun.
Mon.
Tues.
Wed.
Thur. 32
10
11
12
*3
H
15
16
18
19
20
21
22
23
24
2
27
28
29
30
3i
hut
2 34 Il'8l
2 38 I*o6
2 41 5O-85
s
9541
9563
9-5«
2 45 41'20
2 49 32*11
2 53 2359
9*610
9-633
9*657
2 57 15*66
3 1 8*31
3 5 1*55
9*682
9*706
9*731
3 « 55*39
3 " 49'83
3 16 44*86
9*756
9*781
9*805
3 20 40*49
3 24 36*71
3 28 335*
9-830
9-«55
9-879
3 32 30*91
3 36 28-88
3 4o 27*41
9*903
9*9*7
9*950
3 44 26*50
3 48 26*13
3 52 26*29
9*973
9*996
io'ox8
3 56 26-97
4 28*16
4 4 29'85
10*039
io* 060
io'oSi
4 8 32-03
4 12 34*69
4 16 37*82
10* 101
io-isi
10*140
4 20 41*40
4 24 45 '43
4 28 49*90
4 32 54' 79
10-158
10*177
10*195
10*212
4 37 °'°9
10*339
N.15 7 44V
15 25 43 *<
15 43 26*
16 o 54*o
16 18 5*9
16 35 1*7
16 51 41*0
17 8
17 24
3*5
9*0
17 39 57*2
17 55 27-7
18 10 40*3
18 25 34*6
18 40 io*3
18 54 27-2
19 8 25*0
19 22 3*3
19 35 22*0
19 48 20*8
20 o 59-3
20 13 17*3
20 25 14
20 36 51*0
20 48 6*1
20 58 59*8
21 9 31*7
21 19 41*8
21 29 29*7
21 38 553
21 47 58*5
21 56 38*9
45*5
44* 6s
43*98
43*33
41*66
41-98
41*39
40*58
39*87
39*14
38-40
37*64
36*87
36*10
35*3*
34*5<>
33*69
33*86
33-03
31*18
30«3s
*9*45
28*57
37-68
36-78
35*87
34-96
34-03
33-10
33*16
21*21
6*06
6' 14
6*22
6*71
m
695
7*04
7 - I2
7*20
7*28
7-36
7*44
7*|*
7*6o
7-67
7*75
7-82
7 89
•96
«,'° 3
8-10
I
8-17
8-23
8*29
8*35
N.22 4 56*5 *o**5 I 8*41
2-68
9*97
16-71
22*90
28-5
33*5
38-06
41*95
45*26
47*97
50-08
51*60
52 '86
52-61
51-78
50-37
48-39
45*87
42-80
39-20
35*09
30-47
*5*35
13*66
7*u
3 o*io
2 52*65
2 44' 7 6
2 36*45
2 27*72 0*372
a
0-315
0*293
0*269
0-246
0*333
0-199
0-174
0-150
0*135
0*IOO
0*076
0*051
0*026
0-002
0*023
0*047
0-071
0*094
o*iz6
0-139
0*161
0*182
0-203
0*224
0-244
0*263
0-282
0*301
0-320
0*338
0*355
•Mean Time of the Semidiameter passing may be found by subtracting o" • 18 from the Sidereal Time.
Digitized by
Got
o
II.
MAY, 1882.
75
1 AT MEAN NOON.
i
2
4
1
THE SUN'S
Equation of
Time,
to be
added
to
Mean
Time.
Sidereal Time.
Apparent
Bight Aiceaskm.
Apparent
Declination.
Semi-
dmmeter.*
Mon.
Tues.
Wed.
1
2
3'
h m 1
2 34 12*30
2 38 1*56
241 51*37
Of *
N.15 7 46*8
15 *5 454
15 43 28*7
/ *
15 54* 1
15 53-8
IS 53*6
m s
3 2-69
3 0-98
3 i 6 ' 73
h m a
2 37 14*99
2 41 11*54
2 45 8*10
Thur.
Frid.
Sat.
4
i
* 45 4^-74
2 49 32*67
2 53 24-I7
16 O 56*5
16 18 84
16 35 42
15 53*4
15 53*i
15 529
3 22*92
3 28-54
3 33*59
2 49 4*65
2 53 1*21
2 56 57*76
Sun.
Mon.
Tues.
1
9
2 57 16*25
3 1 8*91
3 5 2*17
16 51 43*5
17 8 6*o
17 24 u*5
15 52*7
15 52-5
IS 52-2
3 38-07
3 41-96
3 45-26
3 54'32
3 4 50-87
3 8 47*43
Wed.
Thur.
Frid.
10
11
12
3 8 56*01
3 12 50-45
3 16 45*49
17 39 59*7
17 55 30*2
18 10 42*7
15 52-0
15 51-8
15 51-6
3 47*97
3 50-09
3 51*61
3 12 43*98
3 16 40*54
3 20 37* 10
Sat.
Sun.
Mon.
13
»4
»5
3 20 41-12
3 H 37*34
3 28 34*15
18 25 37*0
18 40 12*7
18 54 29-5
»S 5i'4
15 51-2
15 51-0
3 52'S3
3 52-86
3 52-61
3 24 33-65
3 28 30*21
3 32 26*76
Tues.
Wed.
Thur.
16
:?
3 32 31*55
3 36 29*51
3 40 28*04
19 8 27*2
19 22 55
19 35 24- 1
15 50-8
15 50-6
15 50-4
3 51*77
3 50'S- 5
3 48*39
3 36 23*32
3 40 19*87
3 44 16*43
Frid.
Sat.
Sun.
19
20
21
3 44 27'"
3 48 26*75
3 52 26*90
19 48 22-8
20 1 1*2
20 13 I9-2
15 50-2
15 50-0
»S 49*9
3 45*86
3 42-79
3 39-19
3 48 12*98
3 52 9'54
3 56 6*10
Mon.
Tues.
Wed.
22
23
24
3 56 27*57
4 28*75
4 4 30-43
20 25 16*5
20 36 52*7
20 48 7*7
IS 49*7
IS 49*5
15 49 '4
3 35*o8
3 3 '46
3 25-34
4 2*65
4 3 59*21
4 7 55'77
Thur.
Frid.
Sat.
25
26
27
4 8 32*60
4 12 35*24
4 16 38*35
20 59 1*3
21 9 33*1
21 19 43*1
15 49*2
15 40-1
is 48-9
3 19*73
3 i3'*34
3 7-09
4 11 52*32
4 15 48*88
4 19 45*44
Sun.
Mon.
Tues.
Wed.
28
29
30
3>
4 20 41*91
4 24 45 '92
4 28 50-37
4 32 55*23
21 29 30*9
21 38 56*5
21 47 59*5
21 56 39*8
IS 48-8
15 48-6
15 48-S
IS 4»-3
3 0-08
2 52*63
2 44-74
2 3 6 *43
4 23 4**99
4 27 38-55
4 31 35'"
4 35 3*'66
Thur.
32
4 37 °'5i
N.22 4 57*3
15 48*2
2 27-71
4 39 28*22
•1
fteSe
midiameter for Apj.
went Noon may be
assumed the 1
lame as that foi
* Mean Noon.
Digitized by "
O
76 MAY, 1882. in.
Digitized by
Google
IV.
MAY, 1882.
77
MEAN TIME.
I
THE MOON'S
Longitude
Latitude.
Age.
Meridian Passage.
Noon.
Midnight
Noon.
Midnight
Noon.
Upper.
Lower.
i
IO
II
II
»4
»5
16
;i
19
so
21
22
23
a
27
28
29
30
31
32
or*
199 29 56*8
211 57 25
"4 37 S3
237 31 49-2
250 39 15-8
*63 59 55 '4
277 33 18 -4
291 18 45 -7
305 15 24
319 21 595
333 36 43*i
347 57 3*3
2 19 39
10 40 28*
30 55
U
44 S 8 52 _
58 48 5*6
72 19 45-3
85 32 13*1
25 i6*3
98
111
3
4*3
123 18 59*6
135 25 19-5
147 23 6
159 16 4j-9
171 IO 48*7
183 9 SI'5
195 18 5-2
207 39 II '2
220 16 t'9
233 10 38- 1
246 23 38*3
6-78,
205 42 6'
218 15 59'
231 3 9-4
3 *3 43*9
2 27 4-9
x 22 ii*9
244 3 51
257 17 581
270 45 3-8
284 24 34-5
298 15 45- 1
312 17 33-2
326 28 28*6
340 46 22*6
355 8 18*6
9 3° 33'6
23 48 48*8
37 58 33'i
8S.
o 11 55-8
N.i o 14*3
2 10 23*0
3 i± zz'y
4 8 10*5
4 48 8*8
5 11 20*4
5 >S 47'J
5 o 448
4 26 54*0
3 3 6 *5"
2
36 253
32 50*0
5* 55 3i*5
65 36 15-2
78 58 26-0
1 20 41
N.o 4 58
S. 1 9 ~
8
in
92 1 7-9
104 44 50*0
117 11 19*5
129 23 29*3
141 25 o'7
153 20 8*9
165
13 25-7
9 26-4
189 12 34-8
201 26 49*6
213 55 305
226 41 3*9
239 44 50-2
2 18 26*2
3 *8 35*8
4 7 3»'o
4 44 5*8
5 7 130
5 i6 4i-7
5 12 33*2
4 55 a-7
4 *4 38-3
3 4a 5*8
2 48 35-1
1 45 50-8
S. o 36 20*7
253 6 55-7 N.o 36 40*2
& 2 56 35*2
1 55 30-4
S. o 47 31 -9
N.o 24 9*2
1 35 49-2
2 43 24-4
3 4a 47-4
4 30 5-6
1 593
5 15 590
5 10 41*6
4 46 4*4
4 3 3^*9
3 6 0*2
1 57 32*0
N.o 42 58*1
S. o 32 41*8
1 44 526
2 49 471
3 44 3^-8
4 27 *9'9
4 57 «'i
l l 399
16 18*9
5 5 26-8
4 41 24*8
4 4 49'4
3 t6 37-1
2 18 14*0
1 11 45-4
S. o o 2*5
N.i 13 16*2
d
13-6
14-6
15*6
16*6
17-6
18*6
19*6
20*6
21*6
22*6
23*6
24*6
25*6
266
27*6
28-6
0*2
1*2
2*2
3-2
4-2
6-2
7-2
8*2
9-2
IO*2
11*2
12*2
13*2
14*2
152
h
10 49*5
11 37
12 27*4
13 20*5
H 15-5
15 ii*4
16 7*2
17 i*8
17 55*0
18 47*
19 383
20 29*6
21 21*7
22 15*2
23 IO*2
» »
6 a i
1 2*1
I 56*9
2 49*5
3 39 # *
4 26*1
5 i°*5
5 53**
6 34*8
7 16-t
7 58-6
8 42-6
9 20*0
10 18-4
11 10*9
12 6*2
h m
23 12*9
* #
o 1*9
53*7
1 478
* 43 '4)
3 39*41
4 3 n
5 286
6 21*1
7 12*7
8 3-9
3:
10 42*5
11 38-
12 34*2
13 29-7
«* 2 3 # 5|
15 i4'7
16 3 , o !
16 48'
17 32-
18 14
18 55*5
19 37*3
20 20-3
5'4
53*3
22 44-3
23 38*3
Digitized by
^00
o
78
MAY, 1882.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Right
Ascension.
V*r.
in io".
Declination.
Var.
inio-.
1
Bight
Ascension.
Var.
in io".
Declination.
Var.
in 10**.
Monday i.
Wednesday 3.
h m t t
t n *
h m s s
/ * r
13 645-24
19-897
S.K)46 29-9|
10 56 15-6
97-82
1446 58-0621-924
S.I7 32 44-6
67-83
I
13 844-73
19-933
97*41
I
1449 974
21*969
17 3929*0
1746 8'2
66-97
2
131044-44
19-970
II 5 58-8
97-00
2
14 51 21*69
22-013
66-io
3
131244-37
20*008
II 15 39*6
96-58
3
'4 53 33-90
22*057
175242*2
65*22
4
I3H44-53
20*046
II 25 17*7
96-13
4
14 55 4*5-37
22*100
175910-9
6 4'34
5
13 1644*92
20*083
1134 53*2
95*69
5
145759-10
22-144
'8 5 34'3
•53*44
6
I3l8 4S'S3
132046*38
20*142
114426*0
«"*J
6
15 QI2'IO
22*188
18 11 52*2
62-53
1
20*l6j
II 53 56*0
94*77
?
15 225-36
15 438*88
22-232
18 18 4-7
61*62
132247*46
13 2448-78
20*200
12 3 2 3'3
12 1247-8
94'3«*
22-275
18 24 11*7
60*70
9
20-239
93-83
9
15 652*66
22*318
18 30 13-1
1836 8-9
59*77
10
132650*33
20-27$
1222 9*5
1^31 2.7*8
9T33
10
15 ^ 6- 70
22'36l
58-83
11
13 2852*12
20*3l8
92*84
11.
15 11 20*99
22-403
1841 59-0
5788
12
133054-15
133256-42
20 -35s
124043*4
9**34
12
15 13 35*54
22'446
18474.3-4
56*92
*3
20-399
124955-9
91 82
»3
151550-34
22*488
l8 53 22-0
55*95
H
1334.58-94
20*440
1250 5-3
13 811-5
9130
»4
15 18 5-59
15 2020-69
22-529
185854-8
54*97
IS
1337 1-70
20*481
90-77
»S
22-571
19 421*7
53-98
16
1339 4*71
20*523
131714-5
90-25
16
15 22 36-24
22-612
19 942*6
52*99
*7
13 41 7'97
20-564
13 26 14*2
89-67
IS
15 2452-04
22-653
191457*6
5i*99
18
134311-48
20* 606
133510-5
89*11
15.27 8*o8
22' 6^}
1920 6*5
50*98
19
134515-H
20*648
1344 3-5
88*54
•<9
152924*36
•»• 734
1925 93
49*95
20
134719*25
20*690
1352530
87-96
20.
153140-89
"*775
1930 5-9
1934564
48-92
21
134923-52
13 51 2804
20*733
14 139-0
87-37
21
153357-66
22*814
47*89
22
20-775
14 1021*4
86-77
22
15 36 14*66
22-853
193940-6
46*84
*3
13533282
20-818!
S.I419 0-2
86-16
23
15 38 31*8922-892
S.1944 18-5
45*78
TUBBDJ
LY 2.
Thubsd.
1Y 4.
O
13 55 37*8620-862
8.142735-3 85-54
154049*36^2-931
S. 1948 50*0' 44-72
I
135745-1620-904
1436 6-7
84-92
I
1543 7-06
22-968
I 9 53i5-*43*5«
2
135948*71
20*948
*4 44 34*3
H'*8
2
15.4.524*98
23*006
195733*9
20 146*1
42-58
3
H 154-53
20*992
1452 58-0
83*63
3
154743*13
*3'<>43
41*49
4
14 L 0*6l
14 6 6-95
21-035
15 117-8
82*97
4
1550 1*50
23-080
20 551*8
40-40
S
21*078
15 933-6
82*31
5
15 5220*09
23*116
20 950*9
39* 30
6
14 813*55
21-182
I5I745-5
81-63
6
155438-89
155657-91
23*152
201343-4
38- 19
I
14 1020*42
21*167
152553-2
153356-8
80*94
1
23*187
20 17 29-2
2021 8*3
37*08
141227-55
2Z*2II
80-25
155917-14
23*222
35-96
9
141434-95
14 1642*62
21'256
15 41 56*2
79' 55
9
16 1 36*57
23-256
202440*7
34*83
10
22'300
154951-4
78-83
10
16 356-21
23*289
2028 6*2
33*68
11
141850-55
«"344
155742*2
78*11
11
16 6 16-0423-322
2031 24-9
3* *S4
12
142058-75
21-389
16 528*7
16 13 io*8
77-38
12
16 8 36-0823-356
203436-7
31*39
13
1423 7*22
21-434
76-64
13
16 10 56'3l'23*388
203741-6
30*23
H
1425 15-9621-478
162048*4
75-88
H
16 13 l6-7323-4i8
204039-5
29*07
15
142724-9621*523
1628 21*4
75-12
*5
161537*3323*449
204530-4
2040 14-3
27*90
16
1429 34*2421*568
163549-8
74*35
16
16 17 58- I2W480
26*72
11
143143-7821*612
164313*6 73-57
17
l6 20 19*0923-510
2048 51*0
»5'53
H33 53-59
1436 3*66
21-657
16 5032*6
72*78
18
l6 22 40*2423*539
2051 20-7
24-36
19
21*702
165746-9
71*98
19
1625 1-5623-568
205343-3
23-16
20
1438 14-01
«*747
17 456-3
71-17
20
162723-0523-595
205558-6
21*96
21
1440 24*62
21*791
1712 0-9
70-35
21
162944-7023-622
2058 6-8
20-76
22
144235*50
21*836
1 17 19 0-5
69-52
22
1632 6-5123-648
21 7*7
i9'54
23
144446-65
144658-06
21-880
172555*1
68-68
23
16 3428-4823-675
21 2 1*3 1833
S.21 347'V--""
| H
21*924
8.173244-667*83
24
16 36 50-61 23*700
Digitized by
Google
VI.
MAY, 1882.
79
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
I
o
1
2
3
4
5
6
7
8
9
10
11
12
13
II
18
19
20
21
22
*3
o
1
2
9
10
11
12
13
:i
*7
18
19
20
21
22
*3
*4
Right
Ascension.
Vwr.
in io".
Declination.
Var.
inio**
Tbiday 5.
h m ■
63650*61
639 12*88
641 35*3023-748
643 5786
64620*55
64845*38
651 6*33
65329*41
655 52*61
658 15*92
3 2-88
52651
. 750-24
7 10 14*06
71237*97
715 i* 9 6
7 1726-03
71950*18
722 i4 a 4°
72438*68
727 3*03
72927-43
73151*89
t
23*700
*3'7*4
23*771
*3*793
23815
*3*8*«
23*857
23 876
23 894
23*913
23-931
43' 947
23-963
23-978
23*991
24005
24*018
24*031
24-04*
24*053
24-063
24-071
24*080
01*
»
S.21 347*6
17*11
O
21 '5 20*6
21 658*2
15*88
I
14*66
2
21 8 22*5
*3'43
3
21 930*3
21 1048*7
I2*l8
4
10-94
5
21 II 50*6
9-69
6
21 I2 45'0
8*44
1
21 1331*9
7*x8
21 14 112
5*93
9
21 I443'0
4*67
10
21 15 7*3
3'4i
11
21 15 23*9
2-13
12
21 15 32*9
0*87
«3
211534*3
o # 4o
14
21 1528*1
1*67
15
21 15 14*2
2*95
16
21 1452*7
4**3
II
21 1423*5
21 1346*6
5*S»
6*79
19
21 13 2*0
8*08
20
21 12 9*7
9*36
21
21 11 9*7
10*64
22
S.2I 10 2*0
1"'93
23
24-094
24*100
24*106
24-110
24*114
24-117
14*119
24-111
24*121
24*112
24*121
14*110
14*1x8
8 12 51'
81515-
Satuedat 6.
l6*3924*o87|S.2I 846*
21 723*
21 552*
21 414*
21 227*
21 033*
2058 32*
205622'
2054 5'
205140-6
2049 8*o
204627*8
204339*9
204044*3
20 37 41 * 1
2034 30*2
2031 n*7
202745*6
2024 11*9
202030*6
20 1641*8
20 1245*5
20 841*6
20 430*2
7 34^*39
73640*94
7 39 5'5*
74130*14
743S4'79
74619*46
74844*16
751 8-87
7 53 33*59
7 55 5*5-3*
7582305
8 047*78
8 3 12*51
8 537*22
8 8 i*92'24*ix6
8 1026*61 24*113
27
9024-103
24*108
8 1740*50
820 5*07
8 2229*60
8 2454*09
827 18-54
82942*93
832 7*2724-0528.20 011-4
24-098
*4*ofi
24*085
24-078
24*070
24*061
13*21
14*50
i5'79
17*08
18*36
19*64
20*93
21*12
*3'49
14*78
16*07
*7*34
28*62
29*90
t**i7
3* "45
33*72
349*
36*5
37*51
38*76*
40*02
41*17
42*52
43*76
Right
Ascension.
Var.
inio».
Declination.
Var.
inio**.
h m _
l8 32 7
18 34 31
183655
18 39 19
l8 41 44
1844 8
184632
184855
18 51 19
18 53 43
l l 5 l 7
18 58 30
19 053
19 317
19 540
19 8 x
19 1026
19 12 49
19 15 12*
19 17 35
19 19 57
19 22 20*
I92442
1927 5-
SUHDAY J.
2724*0528.
5| 24*043
7824-033
9424*012
0424*0x0
0623*9918
0113*985
8813*97*
6713*9558
38*3*944
0023*930
5423*915
98*3*899
33*3-M3
5713*866
7213*850
7713*833
7123*814
54 23 -79 s
2613*778
8723*759
3713*740
7513*720
01 i3*7oo|S»
Monday
192927
19 31 49
19 34 11
19 36 32
193854
1941 16
194337
194558
1948 19
195040
1953 1
195522
19 574-*
20 o 3
223
443
7 3
923
20 11 43
20 14 3
20 1622
201842
2021 1
2023 20
2025 39
i3*68o'S«
13*660
, *3 # *39
8423*6x8
*3'597
23*576
'40*3*554
'6623*532
23*510
23*488
23*466
*3*443
15
17
07
84
49
01
16
7 !
64
37
9623*421
23 398
*3'375
922335*
23*329
23*307
23-883
23*260
23*238
23-214
23*191
23*168
23*145,8.
16
12
33
4'
35
w
o n*4
9 55 45'-
95111*5
[94630*4
; 9 4141*9
193646
<9 3J43
[9 26 32
192115
9 15 5o
9 10 18
4 39
5852
8 53 59
84659
84051
g 34 37
82816
82147*8
8 15 12*8
8 830
8 14a
7 5447
74745
8.
74036-4
73321
7 *5 59
7 18 31
7 1056
■7 315*6
:6 55 28-2
:i S47 34-5
[63934-6
t6 31 28*5
[623 16*3
[61457*9
633*6
58 33
4927*0
4044*9
3157-0
23 34
14 4'o
459*0
5548-5
4632*4
37 io*8
2743*8
18 u*5
43*76
44*99
46*23
47'47
48*69
49*90
51*12
5**33
53'53
54 '73
55*93
57*1*
58*31
59-48
60*65
61*81
61*97
64*11
65*27
66*41
67-54
68*66
69-78
70-88
71-98
73-o7
74* 16
75 **4
76*31
77*37
78*42
79*47
80*50
8i-53
82*55
83-56
84-55
85-55
86-53
87-5o
88-46
89-42
90-37
91*29
92*22
93' H
94-05
94-94
95*83
Digitized by
o
8o
MAY, 1 88a.
VII.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Right
Ascension.
Var.
in i©«.
Declination.
Var.
inio«.
i
Bight
Ascension.
Var.
in 10-.
Declination.
Var.
inioP.
TUB8DAT Q.
THUB8DAT II.
h m a t
t »
h m • s
1 1
202539-35
2027 58*15
»3 # I45
S.1418 II'5
95'«3
O
221427*55
22 * 308
S. 5 1642*1
125-40
I
23*123
14 8 33*9
96*70
I
22 1641*37
22*299
5 4 8*7
125-73
2
20 30 l6'82
23 * 100
135851-1
97*57
2
22 1855*14
22 21 8-86
22*291
45J33*3
43856*1
126*05
3
203235*35
23*077
1349 3* 1
98*42
3
22*283
126*36
4
20 34 53*74
23*054
13 39 io- 1
99*26
4
2223 22 '54
22*277
426 17-0
126-65
5
2037 I2'00
23*032
13 29 12*0
100*10
5
22 25 36*18
22*270
41336-3
126*93
6
20 39 30'12
23*009
13 19 8-9
100*93
6
22 2749-78
22*264
4 o53*9
127*19
7
20 41 48-II
22*987
13 o o*8
125848-0
101*74
1
223O 3*25
22 32 16*89
22*259
348 IO'O
127-44
8
2044 5*96
22 * 964
102-54
22-254
33524-6
127*68
9
204623-68
22*942
124830*3
103*34
9
22 34 30*40
22*249
3 22 37*f
I27'9*
16
204841*27
22*921
1238 7-9
104*12
10
22 3643-88
22*245
3 949*5
128*13
II
205058-73
2053 16-06
22*899
12 2740*9
104*89
11
223857-34
22 41 10*78
22*242
257 0-2
128-33
12
22*878
12 17 9-2
105*66
12
22*238
244 9*6
128*52
! 3
20 55 33**6
22*856
12 033-0
106*40
*3
22 43 24*20
22*236
2 31 17*9
128*70
H
205750-33
21 7-28
22*835
115552-4
107*13
H
22 45 37-6l
22*234
2 1825-2
2 53 1 * 6
128-86
15
22*8X4
"45 7*4
11 34 i8*o
107*87
! |
22475I'OI
22-232
129*01
16
21 224*10
22*793
108*58
16
22 50 4*40
22'23X
i 52 37- 1
129*16
*7
21 4 4°*79
22-773
112324*4
109*28
17
22 52 17-78
22'230
13941*7
12645*7
129*28
18
21 657-37
21 913-82
22*753
11 12 26*6
109*98
18
22 5431*16
22*231
129*39
l 9
22*733
11 124*6
110*67
19
225644-55
22'232
1 1349*0
129-50
20
21 11 30-16
22-713
1050 18-6
iii*33
20
225857*94
22'232
1 051-7
12958
21
21 1346-38
21 16 2-48
22-693
1039 8-6
ixi-99
21
23 ni'34
22*233
04754-0
129*65
22
22*674
102754-7
1x2*64
22
23 3 2 4*74
22-235
34 55*9
129* 7»
23
21 18 18-47
22*656
S.10 1636*9
113-28
2 3
23 538-16
22*238
S. 02157-4
129-77
WEDffESI
>AT IO.
Fbida 1
r 12.
O
21203435
22*638
S.10 5 15*3
113*91
23 751-60
22*242
S. 858-6129*81
I
21 22 50-12
22*619
95350-0
114*52
1
23 10 5-06
22*245
N. 4 03
129-83
2
2125 5"7 8
22*602
94221*1
"5-13
2
23 12 18-54
22*248
01659*3
02958*3
129-83
3
21 2721-34
22*584
93048-5
115*72
3
23 I4 3 2 *°4
22*253
129*83
4
21 29 36-79
22*567
91912-5
116*29
4
231645-57
22*258
04257-3
129*82
5
21 31 52-14
22*550
9 733*o
116*87
5
231859-14
22 ' 264
05556*2
1 854*8
129-79
6
2134 7*39
22*533
85550*1
117*43
6
23 21 12-74
22*269
129*75
1
21 3622-54
22*518
844 3-9
117*97
1
23 23 26-37
22'276
1 21 53-2
129*69
21 38 37*60
22*502
83214-5
118*50
232540-05
22-283
1 34 51- 1
129*62
9
21 4052*56
22*487
82021*9
119*02
9
232753-77
22 * 290
147486
129*54
10
2143 7-44
22-473
8 826*2
119-53
10
2330 7-53
22*298
2 045-6
129*45
11
21 45 22-23
22*458
75627-5
120*03
11
23 32 21-35
22*307
2 1342*0
22637*7
23932*6
2 52 26*7
3 5i9'8
129*34
12
214736*93
22*443
744*5*9
120*51
12
233435-21
22*3X5
129*22
*3
214951-55
22*429
73221-4
120*98
13
233649*13
22*325
129*08
H
2152 6-08
22*416
720 14*1
121*45
14
2339 3*n
22*334
128*93
IS
215420-54
215634-92
22*403
7 8 4*o
65551-2
121*91
15
2341 17-14
22*344
128-77
16
22*390
122*34
16
234331-24
22*356
3 18 12-0
128*60
"7
21 5849*22
22*378
643 359
631 181
122*76
17
2 3 45 45*4i
22*367
331 30
128*41
18
22 1 3*46
22 3 17-63
22*367
123*17
18
2 3 47 59 #6 4
22*378
34352-9
•* 564 2'§
4 928*8
128*21
l 9
22*356
61857*8
123-58
19
235015-95
235228-35
23 544 2 '7»
22*391
12799
20
22 5 3*'73
"'345
6 635-1
123-98
20
22*403
127-77
21
22 7 45*77
22*335
5 54 10* 1
•H'35
21
22*416
42214*7
127-53
22
22 9 59*75
22*326
54142*9
124*72
22
235657-32
22*4*9
4 34 59'i
127*27
23
22 12 13*68
22*317
5*9 13*5
S. 5 1642*1
125-07
23
235911-93
22*443
44741*9
127*00
24
22142755
22*308
125*40
H
1 26-63
22*458
N. 5 023*1
126-73
Digitized by
Googk
VIII.
MAY, 1 88a.
8]
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
Bight
Ascension.
Var.
inio*.
Declination.
Var.
in to".
i
Bight
Ascension.
Var.
in 10*.
Declination.
Var.
inio-.
Saturday 13.
MONDAY
15-
h m t s
t *
h m • s
or* »
O
O 126*63
12-458
N. 5 023*1
116*73
I 51 28*51
23*462
N.1411 8*2
97-82
I
341*42
22*472
513 2*6
126-43
I
15349-35
a3*485
142052*4
96-91
2
O 556*29
22-487
52540*3
538 16*1
126*12
2
1 56 10*33
23-508
I4.3O 31*1
95*99
3
8 11*26
22*503
125*80
3
15831*44
23*530
1440 4*3
144031*8
145853-7
95-06
4
O 1026*32
22-518
5 50 499
6 321*7
"5*47
4
2 052-69
*3*553
94*12
5
O 1241*48
22-534
125-12
5
2 3 14*08
23-576
93*17
6
01456-73
22:551
f 1 ! 5 !' 3
124-75
6
2 535-60
23-598
15 8 9*8
92*21
1
17 12*09
22*568
628 18*7
124*38
5
2 7 57' 2 5
23-619
15 1720*2
9124
01927*55
22-585
64043-9
653 67
124*00
2 10 19*03
23-642
152624*7
90*26
9
021 43'ii
0235879
026 14*57
22*603
123-59
9
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24
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(NAUTICAL ALMANAC, 1 882.)
Digitized by
Google
>2
MAY, 1882.
IX.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
a
Right
Ascension.
Var.
in io".
Declinatic
Wednesday 17.
h m s s
/ * »
h m s s
§ 9 ft
3 46 12*25
14-163
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44*19
54052*87
13-33*
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16*27
1
34837-23
24-163
20 325*8
42*93
I
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23-298
21 237*6
i7'44
2
351 2*21
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20 739*6
41*66
2
5 45 3**44
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21 049*4
18-61
3
3S3 27*l8
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20 1145*7
40*38
3
54751-90
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19*77
4
3 55 52-15
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39-09
4
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5
3 58l7*II
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20 1934*8
37-81
1
5 52 30-18
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5 57 7*58
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8
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6 144-06
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10
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27-71
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21 14 57*1
2-97
13
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21 14 35*5
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18 38 20*1
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16
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21 13 30-3
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18 32 37*8
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18 2650*3
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21 11 55*8
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18 2057-7
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18 857-2
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12-70
21
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18 249*5
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22
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13-90
22
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175636*8
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23
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21 552*8
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23
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21-324
17 50 19*2
63*33
24
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N.21 418*7
16*27
24
728 IO'II
21*278
N.I743 56-8
64*13
Digitized by
Google
X.
MAY,
l882.
83
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
I
Right
Ascension.
Var.
in 10*.
Declination.
Var.
inio".
1
Right
Ascension.
Tar.
inxo".
Declination.
Var.
in xp".
SUHDAI
' 21.
Tuesday 23.
It n i t
Of* *
h m s ■
/ * V
O
7 28 10*11
21-278
N.I743568
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9.523*41
19*351
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93*06
I
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21*233
173729*6
64*92
I
9 7 I 9"4*
19*320
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93*48
*
73224-90
73431-88
73638-58
21*187
173057*7
65*71
2
9 9 I 5'£5
19*289
II 045-2
93*89
3
21*140
172421*1
66*49
3
9 11 10-89
19*258
10 51 20*6
94*30
4
21-095
17 17 398
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4
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10 41 53*6
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5
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10 13 18-6
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6
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6
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745 *'69
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70-23
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10 342-4
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9
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9 54 4'0
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20
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Digitized by
G
o 2
o
8 4
M
AY 3
, 1
882.
XI.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Bight
Ascension.
Var.
inio*".
Declination.
in i©".
1
Bight
Ascension.
Vs-r.
inio*".
Declination.
Tsr.
inio*".
Thursday 25.
Saturday 27.
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N. 3 15 5**4
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2
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5
12 14 i*o8
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6
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2 11 59*i
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6
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621 31*4
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7
104830-55
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2 1 17*9
106*91
7
121749-55
19-014
63159*9
104*66
8
105021-07
18*420
1 5036-2
106*99
8
111943-71
1-2 21 38*03
19*040
642 27-3
104-46
9
1052 ii*59
18*420
13954-0
107*08
9
19*067
65253*4
7 3 18*2
104*24
10
IO54 2*11
18*420
1 29 1 1 * 3
1 1828*1
107*16
[0
12 23 32*52
19095
104*03
11
105552-63
18*420
107*23
11
12 25 27*17
19*123
71341-8
103-82
12
105743*15
105933-68
18*421
1 7445
107-30
12
12 27 2I'9Q
12 29 16*98
19*151
724 4*0
103*58
13
18-423
057 0-5
107*36
*3
19*180
73424-8
103*35
H
11 124*23
18-426
O46 10*2
107*42
14
12 31 12*15
19*209
74444-2
103-11
'S
11 314-79
18-428
03531-5
107*47
15
I233 7-49
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8 5 18-4
102*85
16
" 5 5'37
11 655-97
18-432
02446-5
107-52
16
1235 VOI
12 3658-72
19*269
102*59
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014 1-3
107-55
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19-301
8 15 3j*2
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11 84659
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107-59
18
14 38 54*62
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102 * 06
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11 1037*25
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19
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20
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18 15*6
107*64
20
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19-397
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101*49
21
18-458
29 1 • s
107*66
21
124443*47
19-430
I0I*20
22
II l6 9-42
18-464
03947-5
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22
12 4640*15
19*463
9 622*1
IOO'89
23
II l8 0-23
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107*68
23
124837-03
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r 26.
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S. 1 1 196
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125034-11
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S. 92629*0
100*26
I
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18-488
1 12 5*6
107*67
1
12 52 31*40
19*567
9 36 29*6
946 28*2
99 93
2
112332*94
18-498
1 2251*6
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2
12 54 28-9I
12 5626*63
19*603
99*60
3
II 25 23*96
18-508
•33 375
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3
19-638
956 24*8
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4
II 27 15*03
18-518
14423-3
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4
I2 58 24'57
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10 6 19*3
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5
II 29 6*17
18529
155 89
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5
13 022*72
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10 16 11-7
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6
1
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18-553
a 5 54*3
216395
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107-51
6
7
13 221*10
13 6 18-54
13 8 1760
13 10 16*90
19-749
19-787
1026 2*0
10 35 50-0
98*19
9781
II 3440*01
113631*44
18-565
2 2724-4
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8
19*824
104535*7
97 '4*
9
18-578
238 9-0
107-41
9
19*863
105519-1
97*03
10
113822*95
18*592
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107*35
10
19*903
11 5 0*1
96*63!
11
114014*54
18*607
25937-2
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ii
13 12 16*44
19*942
11 14387
96*22
12
II 42 6-23
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3 1020-7
107-22
12
13 14 16-21
19*982
11 24 14-8
95*81
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II43 58-OI
18*638
321 3-8
3 3i 4f*3
107* 13
13
13 16 16*22
20*023
113348*4
95-38
14
114549-88
18-653
107*05
14
13 18 16-48
20*064
11 43 194
94*95
15
114741*85
18-670
342 28*4
106*97
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13 20 16*99
20*105
11 5247-8
94-5I
16
114933*92
18688
3 53 99
106-87
16
13 22 17*74
20*146
12 2 13-5
12 11 36-5
94-06
17
II 51 26*10
18*706
4 3 5°**
106*77
17
1324 i8*n
20*188
93-6o
18
115318-39
18*724
414311
106*67
18
13 26 20* OO
20*232
12 20 56-7
93''3
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115510*79
18*743
425 10-8
106 -55
19
13 28 21*52
20*274
12 30 14*0
92*65
20
II 57 3*30
115855-93
18-762
4 35 49*7
106*42
20
13 3023*29
20-317
12 39 28-5
92*17
21
18-783
44627-9
106*29
21
133225-32
13 3427*62
20*361
1248 40*0
91*67
22
12 048-69
18*803
4 57 5*2
106-16
22
20-405
125748*5
91*16
*3
12 241-57
12 434-58
18*824
5 74***
106*03
23
13 36 30*18
20*449
13 6539
1 9 "65
24
18*846
S. 5 18 17-5
105-88
24
13 38 33*01
20*494
8.131556-3) 90-13
Digitized by
Got
o
XII.
MAY,
I
882
•
8
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Bight
Aiototion.
Var.
in i©«.
Declination*
inio*».
1
Right
Ascension.
Into*-*-.
Declination.
Vrur.
inio*.
MOHDAY
29.
Wednesday 31.
h m t t
/ * *
h m • •
1 » *
O
13 38 33'0I
I34O 30-11
10-494
S.i3i5 56*3
90*13
152228*65
22*834
S.19 951*1
5348
I
20-539
13*455-5
89*60
I
152445-80
22*882
19 15 9-0
52*48
2
13423948
10-584
i3 335i'5
89-05
2
1527 323
22*929
19 20 20*9
51*47
3
134443"
20*629
134244-1
88-50
3
15 2920*95
22*976
1925 26*0
5«-43
4
13464703
20*676
i35'33-5
87-95
4
i5 3'3*'94
23*022
19 3026*1
49'39
|
134851-23
20*722
14 019-5
87-38
5
153357-21
153815-76
23*068
193519-3
48-35
6
135055-70
20*768
14 9 2-0
86*79
6
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1940 6*2
194446*5
47*29
i
13 53 °'45
»3 55 S-48
20-815
141741*0
86-21'
1
153834-58
154053-67
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46* 23
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1426 16 '5
85*61
23*204
1949 21-0
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9
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H34 48-3
84-99
9
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IO
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1443 164
84-38
10
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ii
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11
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12
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15 818-3
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13
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20 1428*2
2018 15*9
2021 56-8
39*65
14
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15 16 31*1
81*81
14
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13*464
38*52
IS
14 94874
14 11 56-09
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21-249
15 2440*0
1532449
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15
16
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17
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14 16 11*66
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16 157*24
16 418-89
16 640-77
23 588
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18
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20
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16 422*9
77*67
20
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23-707
2035 30*9
31-58
21
142237-23
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16 12 6-7
76-93
21
16 11 25*25
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22
14 24 46 35
14 26 55 77
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16 1946-1
76-20
22
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16 16 10*63
23*782
204135-7
29*21
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21-595
8,1627 21' I
75-46
23
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S.20 44 27*4
28*01
TUE8DA
T 30.
THUB8DAY,
JUNE 1.
O
1429 5 -49
21*645
S. 16 34 51 -6 74-70
0|l6l8 33-65|23*8 55
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I
2
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1642 17-51 73-93
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1
3
4
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21*796
21*846
21*896
165655-3
17 4 7-1
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7»-57
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6
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17 18 l6'2
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PHASES OF 1
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i
144421-95
144634*08
21*996
22*047
172513-469*12
17 32 5*6 68-28
9
IO
144846-51
145059-24
1453 12*26
22-097
22*146
17385^8
174534-8
67-43
66*57
May 2
O Full Mo
h m
on • 20 30*8
ii
22*196
1752 n*6
65*70
10
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uarier - 34*7
12
14 55*5-59
22-247
175843*2
64*82
16
# NewM
oon - 19 32*6
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H
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14573922
H 59 53' l 5
15 2 7-37
22-297
22*346
22*396
18 5 9-5
18 11 30*4
181745*9
63*93
63*03
62*12
24
J First Q
uarter - 12 41*0
16
15 421-90
15 636*72
15 851*83
22*446
22*494
22-543
1823559
1830 0*3
183559-2
61*20
60*27
59" 34
May 12 1 <[ Perigee
24 J <[ Apogee
h
• - - - 15
- • - - 21
19
20
15 11 7*24
151322-94
22*592
22*641
1841 52*4
184739-8
5838
57'4»
21
15153893
22*690
185321-4
185857-3
56*46
22
15 17 5522
22*738
55-48
23
15 20 11-79
22*786
19 427-2
54-48
24
15 22 28-65
22*834
S.19 951-1
53-48
Digitized by
Google
86
MAY, i88a.
XIII.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
PX.
PX.
PX.
PX.
i
and
Noon.
of
m».
of
VI\
of
IX\
of
Position*
diff.
diff.
diff.
diff.
o i n
t 9
9 *
t *
i
Pollux W.
88 19 5
*954
89 50 16
*944
91 21 39
86 12 14
*933
92 53 16
87 41 4
2924
Mars W.
83 15 11
3087
84 43 3 6
3<>77
3067
3056
Regulus W.
51 25 1
2911
5 l 5 l
46 58 58
2899
54 29 26
2888
56 2
2877
Antares E.
48 31 4
2910
2902
45 26 42
2894
43 54 15
96 42 19
2887
aAquilffi E.
100 55 13
3308
99 3i "
3*94
98 6 53
3281
3269
2
Pollux W.
100 34 21
p 8 30
63 48 24
36 9 39
89 36
2876
102 7 JO
96 38 37
65 22 23
34 36 18
88 10 6
2866
103 40 12
?! ! 58
2858
105 13 25
2849
Mars W.
3005
2994
2983
»ni
*973
Regulus W.
2822
2811
66 56 37
2800
2790
Antares E.
2852
2846
11 z 5°
86 44
2841
J' *9 15
»s 17 44
2837
aAquito E.
3213
3203
3i94
3186
3
Regulus W.
76 26 53
2737
78 2 44
2726
79 38 49
2716
81 15 8
2706
Spica W,
22 25 22
27*9
24 1 36
2709
*5 38 • 4
2699
27 14 46
2688
a Aquil© E.
78 4 10
3»S4
76 37 5
3150
7 * 2 5 «
102 58 58
3 "47
73 4* 43
3144
FomalhautE.
105 50 24
3*3i
104 24 ji
3213
3296
101 32 44
3181
4
Regulus W.
89 19 59
2657
90 57 36
2648
92 35 26
38 38
63 32 1
2639
94 i| *8
40 16 29
2629
Spica W.
U z \ +I
66 26 19
2639
36 59 44
54 59 7
2*629
2619
2610
a Aquita E.
3148
3152
3x58
62 5 2
3166
FomalhautE.
94 17 l 7
3115
92 49 26
3104
91 21 22
3094
89 53 5
108 11 20
3086
a Pegasi E.
112 55 31
2801
iti 21 4
2788
109 46 21
*775
2763
5
Spica W.
48 32 2
2565
50 u 45
2556
51 51 40
2548
S3 3* 47
2540
a. Aquita E.
54 53 8
3*34
53 27 39
81 9
3*55
52 a 34
3*79
50 37 58
3307
FomalhautE.
82 29 17
3052
3<>48
79 jo 56
3046
78 1 40
3043
a Pegasi E.
100 12 30
2708
98 36 1
2698
96 59 19
2689
95 22 24
2080
6
Spica W.
61 55 n
2499
65 36 25
18 50 9
249*
65 17 50
2484
66 59 26
*477
Antares W.
17 13 30
2701
2662
20 27 40
2629
22 5 55
2601
a Aquita E.
43 44 37
3516
42 24 31
69 5 52
3577
f I 31
67 36 47
3*S47
39 47 47
66 7 49
3726
FomalhautE.
Z° 35 4
3049
3«5S
3061
3069
a. Pegasi E.
87 14 58
2640
85 36 57
2632
83 58 46
2626
82 20 27
2620
7
Spica W.
75 *9 58
2441
77 " 35
*434
78 55 21
2427
80 38 17
2421
Antares W.
30 25 1
2510
32 6
2497
33 47 18
2485
35 *8 53
*473
FomalhautE.
58 40 10
3137
57 18 45
3157
55 5i 44
3181
54 25 12
3207
a Pegasi E.
74 6 51
*593
72 27 47
2590
70 48 39
2586
69 9 25
2584
Sun E.
129 9 25
2759
"7 34 3
2751
125 58 31
*744
124 22 49
2737
8
Spica W.
89 15 17
2389
90 59 8
2382
92 45 8
47 26 39
2376
94 *7 17
2371
Antares W.
44 29
2425
45 43 *8
2417
2409
49 10 1
2401
FomalhautE.
47 *i 5o
60 52 32
3402
45 59 36
3458
44 38 *5
35*1
43 »« *4
359*
a Pegasi E.
*577
59 '3 6
2578
57 33 4o
113 8 34
2580
55 54 * 8
2582
Sun E.
116 21 59
2702
114 45 21
2695
2689
in 31 39
2682
9
Spica W.
103 10 8
2341
104 55 7
2336
106 40 14
2331
108 25 29
*3*5
Antares W.
57 49 30
2366
59 33 53
2360
61 18 26
*353
63 3 8
*34«
Fomalhaut E.
37 1 2
4124
35 5i H
4281
34 44 14
4463
33 39 49
4«73
a Pegasi E.
47 38 47
2613
46 10
2623
44 21 49
2637
42 43 45
2654
Sun E.
103 24 52
2650
101 47 5
2645
100 9 11
2638
98 31 8
2633
IO
Antares W.
71 48 43
34 40 16
2320
73 34 14
2315
75 19 52
2309
77 5 38
2305
I —
a Pegasi E.
2789
33 5 34 **34
31 31 50
2886
*9 59 n *95o
Digitized by
Google
XIV.
MAY, 1 88*
»
87
MEAN TIME. '
LUNAB DISTANCES.
.
Star's Name
,PX.
Ipx.
P.U
PJL
|
and
Midnight, of
XV*. of
XVEDfc : of
XXI*.
of
Position.
| diff.
1 **
jdfe
6Ht
I
Pollux W.
o # *|
94 *5 4 *9*4
r •}
95 57 5 *9os
r •]
97 29 18 2895
92 8 53 3025
r »
99 * 43
2885
Mara W.
89 10 8' 3046
90 39 H.303S
93 3* 35
62 14 39
3014
Regains W.
57 34 48J***
59 7 S*\**S5
60 41 8
*«44
**33.
Antares E.
42 21 39 1879
40 48 53 2871
39 15 57
2864
37 4* 5*
2858
a Aqoita £.
95 17 31
3156
93 5* **
3MS
92 27 12
3*33
91 1 42
3**3
2
Pollux W.
106 46 49
1840
108 20 25
2831
109 54 13
2823
in 28 n
2815
Mars W.
101 10 18
196a
102 41 18
*953
104 12 30
»*43
WS 43 55
293a
Regains W.
70 s 46
*779
71 40 42
2768
2b 48 6
*757
74 5* 16
*747!
Antares E.
*9 55 35
2834
28 21 52
2832
2833
25 14 21
*»35J
a Aqailffl E.
83 51 18
3178
82 24 43
3171
80 57 59
3165
79 3i «
3<59)
3
Regains W.
82 51 40
1696
84 28 25
2686
86 523
52 6 15
09 20 51
2677
«7 4* 34
2666 j
Spica W.
28 51 42
2678
30 28 52
2668
2658
33 43 5i
6 7 53 34
2648.
aAqaita E.
72 15 27
3143
7048 9
3»43
3143
3 145
FomalhaatE.
100 6 12
3167
98 39 23
3*5»
97 12 16
3139
95 44 54
1
3»*7
4
Regains W.
95 5i 43
2621
97 30 10
2612
99 « 48
2603
100 47 39
*594
Spica W.
41 55 "
2601
43 34 5
*59.i
45 13 "
2582
46 52 31
*574
a Aqaifo E.
60 38 12
3176
11 l \ 34
86 56 1
3187
57 45 9
85 27 14
3*99
56 18 59
3215
FomalhautE.
88 24 38
307*
3070
3063
83 58 19
3057
« Pegasi E.
106 36 4
2751
105 32
2741
103 24 46
2729
101 48 45
2719
5
Spica W.
55 I* 5
2531
56 52 35
2513
58 33 1*
*5*5
60 14 8
2507
a Aquilae E.
49 13 54
3338
47 50 *7
3374
46 27 41
3416
45 5 43
3463
FomalhaatE.
76 32 20
3042
75 3
92 8
3042
73 33 39
3<>44
72 4 20
88 52 49
3046
a Pegasi E.
93 45 18
267s
2663
90 30 30
2655
2647
6
Spica W.
68 41 12
2470
70 23 8
2462
72 5 15
*455
73 47 3*
28 44 22
*44«
Antares W.
n 44 48
38 31 27
04 39 1
2578
25 24 13
*55*
n 4 5
254©
2524
a Aquilae E.
3817
37 16 42
3921
36 3 44
01 42 3
4040
34 5a 44
60 13 57
75 45 48
4179
FomalhaatE.
3078
63 10 25
3090
3103
3119
« Pegasi E.
80 41 59
2614
79 3 *3
2608
77 24 39
2603
2598
7
Spica W.
82 21 22
2414
84 4 37
2407
85 48 1
2401
87 3i 34
*394
Antares W.
37 10 44
2463
38 52 50
*453
40 35 10
*443
42 17 43
*434
FomalhautE.
52 59 11
3*37
5i 33 45
3271
50 9
33«>
48 45
62 31 58
3353
« Pegasi E.
67 30 8
2581
65 50 47
*S79
64 n 23
2578
*577
Sun E.
122 46 58
2729
121 10 57
2722
"9 34 47
2715
117 58 27
2709
8
Spica W.
96 11 34
2364
97 5 6
*359
99 40 34
*353
101 25 17
*347
Antares W.
50 53 34
*394
52 37 18
2387
54 21 12
2380
56 5 16
2373
Fomalhaat E.
41 59 41
3672
40 42 24
3764
39 ** 45
3868
38 i* 53
3988
« Pegasi E.
54 H 58
2586
5* 35 44
2591
50 56 36
*597
49 17 37
2604
Sdk E.
109 54 34
2675
108 17 21
2669
106 40
2663
105 2 30
2657
9
Spica W.
no 10 52
2320
in 56 22
2315
113 42
68 18 4
2311
115 27 44
2305
Antares W.
64 47 58
234*
66 32 57
2336
2330
70 3 20
2325
Fomalhaut E.
32 38 27
4917
31 40 26
5203
30 46 7
5541
*9 55 5*
594*
a Pegasi E.
4 1 6 I
2673
39 28 46
2695
37 5i 59
2721
36 15 47
*75*
Sun E.
96 52 58
2627
95 14 40
2622
93 36 15
261$
91 57 4*
261 1
10
Antares W.
78 51 30
2300
80 37 29
2296
82 23 35
2292
84 9 47
2288
a Pegasi E.
28 27 57
3026
26 58 16
3119
25 30 30
323a
H 4 59
3373
Digitized by '
O
18
MAY, 1 88a.
xv.
MEAN TIME.
LUNAR DISTANCES.
i
8 tar 's Name
and
Position.
Noon.
P.L.
of
diff.
IIP.
PX.
of
diff.
VP.
P.L.
of
diff.
IX*.
P.L.
of
diff.
IO
Sun
E.
010
90 19 2
1605
1
88 40 14
2601
1 »
87 1 20
*595
/ *
85 22 19
2590
II
An tares
a Aquilae
Sun
W.
W.
E.
85 56 4
39 43 4o
77 5 3«
a 184
343o
2569
87 42 28
41 5 22
75 26
2281
3346
2565
89 28 56
42 28 40
73 46 17
"77
3270
2561
91 15 30
43 53 *6
72 6 29
"74
3ao3
*558
12
Antares W.
a Aquiln W.
FomalhautW.
Sun E.
100 9 22
51 14 50
30 21 14
63 46 22
126a
1958
5288
*544
101 56 18
5* 45 55
31 14 30
62 6 10
2260
2923
4966
2541
103 43 17
54 17 45
32 11 52
60 25 54
2258
2891
4692
2540
105 30 18
55 50 *5
33 " 58
58 45 37
"57
a86a
4457
a 53 8
13
a Aquilas W.
FomalhautW.
Sun £.
63 40 51
39 3 34
50 *3 45
*75«
5672
•535
65 16 14
40 20 51
48 43 21
*743
3569
*535
66 51 57
4i 39 59
47 * 57
2731
3478
*537
68 27 56
43 48
45 " 35
a7ao
3397
*537
H
a Aquiln W.
FomalhautW.
a Pegasi W.
Sun E.
76 30 53
50 4 47
28 55 43
37 * '5
2686
3»3
2889
2548
78 7 52
51 32 41
30 28 16
35 *i 9
2684
3<>74
2827
2552
79 44 53
53 * «
32 2 9
33 4i «
2682
3039
2776
*55*
81 21 57
54 30 46
33 37 8
32 1 13
a683
3009
*733
2560
*5
a Aquito W.
FomalhautW.
a Pegasi W.
Sun E.
89 26 44
62 s 48
4i 43 39
23 43 13
2699
2907
2604
2588
91 3 25
63 37 58
43 22 29
22 4 1
2706
2894
2590
*595
92 39 57
65 10 25
45 1 3»
20 24 59
27x4
2883
2578
2602
94 16 19
66 43 5
46 41 3
18 46 6
*7*3
a8 75
3569
2610
18
Sun
Mars
Kegulus
W.
E.
E.
14 58 30
53 5 48
75 5* 55
2853
2756
*554
16 31 49
51 30 22
74 1* 57
2869
2772
2568
18 4 48
49 55 18
72 33 18
2884
2789
2582
19 37 28
48 20 36
70 53 59
2898
2806
2597
19
Sun
Mars
Begulus
W.
E.
E.
27 16 1
40 32 49
62 42 25
•975
2898
2672
28 46 45
39 28
61 5 7
2990
2918
2687
30 17 10
37 28 32
59 28 10
3006
2938
2702
31 47 16
35 57 *
57 5' 33
302 s
2959
27x8
20
Sun
Mars
Regulua
Spica
W.
E.
E.
E.
30 12 58
28 26 3j
49 53 3 8
103 38
3098
3082
2796
*759
40 41 10
26 58 1
48 19 5
102 2 38
3x12
3m
2812
2772
42 9 4
25 30 4
46 44 53
100 27 34
3128
314a
2828
2787
43 3 6 4o
24 2 46
45 « a
98 5* 49
3H3
3177
2844
2800
21
Sun
Venus
Regulus
Spica
W.
W.
E.
E.
$o 50 18
28 32 33
37 ** 57
91 3 22
32x3
333»
2926
2865
52 16 12
29 56 7
35 55 "
89 30 19
3226
3344
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2877
53 4i 50
31 19 28
34 23 47
87 57 31
3240
3356
2961
2890
55 7 »*
32 42 35
32 52 46
86 24 59
3asa
3367
2978
290a
22
Sun
Venus
Pollux
Spica
W.
W.
W.
E.
62 10 28
39 34 52
16 20 42
78 45 56
33"
34*3
4123
2955
63 34 27
40 56 42
17 30 21
77 14 47
3321
3434
3953
2965
64 58 14
42 18 20
18 42 48
75 43 5i
3331
3444
3818
*975
66 21 49
43 39 47
19 57 32
74 13 7
3341
3453
3711
2984
*3
Sun
Venus
Pollux
Spica
Antares
W.
W.
W.
E.
E.
73 17 5
50 *4 3*
26 32 58
66 42 5
112 s 53
33H
3495
3422
3022
3<>43
74 39 4o
5i 45 1
27 54 49
65 12 20
110 36 34
3391
3502
3391
3029
3049
76 2 7
53 5 *3
29 17 16
63 42 44
109 7 22
3397
3508
3365
3036
3056
11 H *7
54 *5 38
30 40 12
62 13 15
107 38 18
3403
35H
334*
304a
3061
24
Sun
Venus
W.
W.
84 14 34
61 5 24
34*5
3537
85 36 22
62 25 7
34*9
3540
86 58 5
63 44 47
343*
3543
88 19 46
65 4 24
3433
3545
Digitized by
Google
XVI.
M
AY, il
382
•
89
MEAN TIME.
LUNAR DISTANCES.
f
Star's Name
and
Position.
Midnight.
P.L.
of
diff,
xvv
P.L.
of
diff.
XVIIR
P.L.
of
diff.
XXR
P.L.
of
diff.
IO
SUN
E.
Of*
83 43 n
1586
or*
82 3 57
2582
1 *
80 24 37
*577
1 It
78 45 10
*573
II
An tares
a Aquita
Sun
W.
W.
E.
93 2 8
45 i9 3J
70 26 36
1*70
3«43
*554
94 48 51
46 46 48
68 46 38
2268
3089
2552
96 35 38
48 15 11
67 6 37
2266
3041
2548
98 22 28
49 44 33
65 26 31
2263
2997
2546
12
Antares W.
a Aquita W.
FomalhautW.
Sum E.
107 17 21
57 23 22
34 '7 *8
57 5 »7
"57
*«37
4*54
*537
100 4 24
58 57 2
35 25 3
55 24 55
2256
2814
4078
2536
no 51 28
60 31 12
36 35 26
53 44 3*
2256
2793
39*4
2536
112 38 32
62 5 49
37 48 21
52 4 9
2256
*774
3790
*535
IS
a Aquita W.
FomalhautW.
Sun £.
70 4 10
44 23 8
43 4* '4
1710
3326
2538
71 40 37
45 46 50
42 1 54
2702
3263
2541
73 17 14
47 " 45
40 21 38
2695
3206
*543
74 54
4* 37 47
38 41 25
2690
3*57
2546
«4
a Aquita W.
FomalhautW.
a Pegasi W.
Sun E.
82 59
56 047
35 13 5
30 21 23
2684
2982
2697
2566
84 36 2
57 3i 22
36 49 49
28 41 40
2686
2959
2667
2570
86 13 1
50 2 26
38 27 14
27 2 3
2689
*939
2642
*575
87 49 56
60 33 56
40 5 12
25 22 34
2694
2921
2621
2581
*5
a Aquita W.
FomalhautW.
aPegaai W.
Sun E.
95 52 28
68 15 56
48 20 40
17 7 24
*733
2869
2563
2frl8
97 28 24
69 48 55
50 26
15 28 53
*744
2864
2558
2626
99 4 5
71 22
51 40 19
13 50 33
2756
2861
*554
2635
100 39 30
72 55 9
53 20 17
12 12 26
2770
2859
*553
2645
18
Sun
Mars
Regulus
W.
E.
E.
21 9 49
46 46 16
69 15
2913
2824
2612
22 41 51
45 12 19
67 36 21
2928
2842
2627
24 13 34
43 3* 45
65 58 2
*944
2860
2642
25 44 57
42 5 35
64 20 4
*959
2879
2656
*9
Sun
Man
Regulus
W.
E.
E.
33 »7 *
34 *5 58
56 15 17
3036
2982
*733
34 46 30
3* 55 23
54 39 21
3052
3005
*749
36 15 38
31 25 16
53 3 46
3067
3029
2765
37 44 28
29 55 39
51 28 32
3083
3054
2780
20
Sun
Mars
Regulus
Spica
W.
E.
E.
E.
45 3 58
22 30 9
43 37 3i
97 18 21
3157
3216
2860
2814
46 30 59
21 10 19
42 4 21
95 44 "
317*
3260
2876
2827
47 57 42
19 45 21
40 31 32
94 10 18
3186
3312
2893
2840
49 24 8
18 21 23
38 59 4
92 36 42
3*99
337*
2909
2852
21
Sun
Venus
Regulus
Spica
W.
W.
E.
E.
56 32 20
34 5 *9
31 22 6
84 5* 42
3264
3379
2997
2913
57 57 13
35 28 9
29 51 50
83 20 40
3276
339'
3017
2924
59 " 52
36 50 36
28 21 59
81 48 51
3288
3402
3038
*935
60 46 17
38 12 50
26 52 33
80 17 17
3300
3413
3060
*94*
22
Sun
Venus
Pollux
Spica
W.
W.
W.
E.
67 45 13
45 * 4
21 14 7
72 42 34
3351
3463
3627
*993
69 8 25
46 22 10
22 32 12
71 12 12
3359
347*
3560
3001
70 31 28
47 43 6
23 51 30
69 42
3368
3480
35<>5
3009
71 54 21
49 3 53
25 11 49
68 11 58
3376
3488
3460
3016
*3
Sun
Venus
Pollux
Spica
Antares
W.
W.
W.
E.
E.
78 46 40
55 45 46
3* 3 35
60 43 54
106 9 20
3408
3519
33*4
3046
3065
86 8 47! 3414
57 5 49' 35*5
33 27 19 3308
59 14 38,3051
104 40 27; 3O7O
81 30 48
58 25 45
34 5i 22
57 45 29
103 n 41
3419
35*9
3*93
3055
3074
82 52 43
59 45 37
36 15 42
56 16 24
101 42 59
34*3
3534
3281
3059
3077
24
Sun
Venus
W.
W.
89 41 25
66 23 59
3434
3545
91 3 3' 3436
67 43 33 3547
92 24 39
69 3 5
3436
3547
93 46 15
70 22 37
3436
3546
Digitized by
Google
9o
MAY, 1 88a.
XVII.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L.
P.L.
*
and
Noon.
of
IIP.
of
VP.
of
IX*.
of
Positioi
u
diff.
diff.
diff.
diff.
1 »
1 H
1 *
1 ft
*4
Pollux
W.
37 40 16
3269
39 5 4
3*59
40 30 3
3*5°
4i 55 13
3241
Mars
W.
19 56 4
3506
21 16 22
3480
22 37 9
3459
23 58 19
50 20 46
344i
Spica
E.
54 47 *4
306a
53 18 28
98 45 47
3065
51 49 36
3067
3069
An tares
E.
100 14 21
3080
3083
97 l 7. 16
3085
95 48 48
3087
*5
Sun
W.
95 7 5i
3435
96 29 28
3434
97 5i *
343*
99 ** 47
3430
Venus
W.
71 42 10
354*
73 * 43
50 29 28
3545
74 « 17
3543
75 40 54
354i
Pollux
w.
49 3 *5
30 48 16
3*°5
3x98
5i 55 40
3191
53 22
3184
Mars
w.
338a
3* 10 53
3373
33 33 40
3365
34 56 37
3357
Spica
E.
ii 5 1 l
3071
41 28 16
3070
39 59 30
85 29 57
3069
38 30 43
84 1 29
3066
Antares
E.
88 26 47
3088
86 58 23
3087
3085
3084
z6
Sun
W.
106 1 59
3410
107 24 4
3406
108 46 14
3400
no 8 31
3393
Venus
W.
82 19 46
352a
83 39 46
3516
84 59 52
3511
86 20 4
3504
Pollux
W.
60 35 44
3*49
62 2 54
3141
63 30 14
3133
64 57 44
4 6 5 45
3125
Mars
W.
41 S3 40
3317
43 17 3*
3308
44 4* 34
26 28 n
3300
3291
Regulus
W.
23 34 41
3»79
25 1 15
3161
3*43
27 55 29
26 38 8
3128
Spica
E.
31 s 56
3051
29 36 46
3046
28 7 30
3041
3°35
Antares
E.
76 38 24
3067
75 9 34
306a
73 40 38
3056
72 11 35
305a
*7
Sun
W.
117 1 55
3355
118 25 3
3346
119 48 21
3337
121 It 50
33*7
Venus
W.
93 3 *
3466
94 24 4
3457
95 45 16
3447
97 6 39
3438
Pollux
W.
7* l 7 45
3082
73 46 17
3071
1% 15 *
3062
76 43 58
305a
Mars
w.
53 9 19
3146
54 34 34
3*35
56 2
3225
57 *5 42
3a 14
Regulus
w.
35 16 21
64 44 35
3059
36 45 21
3047
38 14 35
61 44 47
3034
39 44 5
60 14 38
3oaa
Antares
E.
3019
63 14 45
301a
3003
*995
28
Venus
W.
103 56 24
3384
105 18 59
3373
106 41 46
3360
108 4 48
3349
Pollux
W.
84 11 50
2999
85 42 4
3988
87 12 32
2976
88 43 15
•965
Mars
w.
64 37 16
3157
66 4 16
48 46 28
3146
67 31 30
3133
68 59
3121
Regulus
w.
47 15 *5
2960
*947
50 17 47
*935
51 49 22
2922
Antares
E.
52 41 15
2950
51 10
2941
49 38 33
2931
48 6 54
2922
a Aquiln
E.
104 43 40
3365
103 20 44
3349
101 57 29
3333
100 33 56
3317
29
Pollux
W.
96 20 25
2905
97 5* 37
2894
99 *5 3
2882
100 57 45
2870
Mars
W.
76 20 18
3056
77 49 22
3043
79 18 42
3029
80 48 19
3015
Regulus
W.
59 3i *5
2856
61 4 40
2841
62 38 13
a8a 9
64 12 3
2815
Antares
E.
40 25 34
2873
38 52 40
2864
37 19 35
•«55
35 46 18
89 IS 7
2846
a Aquile
E.
93 3i 44
3*44
92 6 27
3231
90 40 55
3«x8
3205
30
Pollux
W.
108 45 4
2811
no 19 18
2799
in S3 47
a 7 88
113 28 30
2777
Mars
W.
88 20 40
2946
89 52 1
293a
91 23 39
2919
9* 55 34
2905
Regulus
W.
72 5 40
*747
73 4i *8
*734
75 17 '3
2720
76 53 27
2706
Spica
W.
18 3 6
2732
»9 39 4
a 7 i8
21 15 20
2703
22 51 56
2689
Antares
E.
27 57 22
2814
26 23 12
a8za
24 40
79 8 6
a8u
*3 14 47
2814
a Aquil©
E.
82 2 35
3150
80 35 26
3141
3»33
77 4o 3 6
3x24
FomalhautE.
IO9 42 44
3265
108 17 52
3242
106 52 33
3220
105 26 48
3'99
3i
Mars
W.
100 39 32
2837
102 13 12
2824
103 47 9
88 is 28
2811
105 21 23
2798
Regulus
W.
84 59 6
2639
86 37 8
2626
2613
89 54 5
2601
Spica
W.
30 59 36
2621
32 38 3
68 52 49
2607
34 16 48
67 24 34
•594
I 5 s i 5I
65 56 19
2581
a AquiUe
E.
70 21 1
3098
3096
3096
3<>95
Fomalhaut E.
98 11 57
3x04
9 6 43 53
115 33 18
3088
95 15 29
3073
93 46 46
3058
a regasi
E. 117 7 51 2796
2777
113 58 19
*759
112 22 58
2742
Digitized by
Google
XVIII.
MAY, 1882.
9'
MEAN TIME.
24
*5
26
27
28
29
30
3*
LUNAR DISTANCES.
Pollux W.
Mara W.
Spies E.
Antares E.
Son
Venus
Pollux
Mars
Spica
W.
W.
W.
W.
E.
Antares E.
Sun
Venus
Pollux
Mars
Regulus
Spica
Antares
Sun
Venus
Pollux
Mars
Regulus
Antares
Venus
Pollux
Mars
Regulus
Antares
aAquilaa
Pollux
Mars
Regulus
Antares
a. Aquila
W.
W.
W.
W.
E.
E.
W.
w.
w.
w.
w.
E.
W.
w.
w.
w.
E.
E.
w.
w.
w.
E.
E.
W.
W.
W.
W.
E.
Pollux
Mars
Regulus
Spica
Antares
a A quite E.
Fomalhaut E.
Mars W.
Regulus W.
Spica W.
aAquilee E.
Fomalhaut E.
a Pegasi E.
43 »o
25 19
48 si
94 20
100 34
77 o
5448
36 19
V l
82 32
III 30
66 25
47 3°
29 23
25 8
70 42
122 35
98 28
78 13
58 $1
4i 13
58 44
109 28
90 14
70 20
53 21
45 35
99 10
102 30
82 18
6s 46
U 12
87 49
US 3
94 »7
78 2
24 2
21 40
76 12
104 o
106 55
91 32
37 35
64 28
92 17
"Q 47
34
49
59
22
30
u
43
5»
59
56
24
23
7
5
39
27
30
12
7
34
50
l 9
3
11
44
13
3
4
42
'3
11
50
4
28
47
59
5i
II
37
53
59
12
3
45
3*34
34*7
3071
3088
34*7
3S3»
3i77
3349
3°*4
308a
3386
3497
3116
3282
3i«3
3030
3046
3318
3428
304*
3203
3010
*9*7
333*
*953
3108
2909 1
2912
3302
2*58
3001
2802
2838
3*93
2767
2891
2692
2675
2821
3117
3178
2785
2588
2369
3097
3044
2726
P.L.
P.L.
P.L.
of
xvim
of
XXP.
of
diff.
diff.
ditt
9
# *
1 n
44 46 3
26 41 35
3226
46 11 42
3219
47 37 29
3211
34H
28 3 36
3402
29 25 50
339*
47 *3 14
3071
45 54 29
3072
44 25 45
3072
9* 5i 57
3089
91 23 34
3088
89 55 10
3089
101 56 16
34*3
103 18 6
34*o
104 40
3416
78 20 15
3535
79 40 *
353i
80 59 51
3526
56 15 4
3170
57 4i 49
3163
59 8 42
3156
37 4* 58
3340
39 6 23
333*
40 29 57
3325
35 3* 59
81 4 27
3062
34 4 2
3059
32 35 2
3<>54
3078
79 35 5o
3074
78 7 9
3071
112 S3 2$
3379
114 16 8
337*
115 38 57
3364
'89 51
349o
90 21 26
34*3*
91 42 9
3474
67 53 13
48 54 39
3108
69 21 13
3100
70 49 23
3090
3*74
50 19 21
3*6+
51 44 14
3*55
30 50 59
3099
32 19 10
3085
33 47 3 8
3<>73
23 39 3
3024
22 9 20
3018
80 39 30
301 1
69 13 11
3039
67 43 47
3033
66 14 15
3026
123 59 21
3307
125 23 25
3296
126 47 41
3*85
99 49 57
3417
101 n 54
3407
102 34 3
3396
79 42 28
3031
81 12 2
3021
82 41 49
3010
60 17 39
3192
61 43 58
3181
63 10 30
3169
42 43 51
2998
44 H 7
*9*5
45 44 38
2973
57 i3 50
2978
55 43 9
2970
54 12 18
2960
no 51 33
33*3
112 i$ 18
33"
113 39 17
3*97
9' 45 23
2942
93 l6 49
2931
94 48 29
29x8
7* 54 44
3096
73 « 59
56 25 45
3083
74 5i 3°
3069
54 53 "
2896
2883
57 58 26
2869
45 3
2902
43 30 43
96 21 28
2893
41 58 15
2883
97 45 55
3287
3272
94 56 44
3258
104 3 55
83 48 24
2846
105 37 23
85 18 52
*-«35
107 11 6
2823
2988
*974
86 49 37
2960
67 20 36
2788
68 55 20
*775
70 30 21
2761
32 39 n
2831
84 56 16
2824
29 31 26
2818
56 22 47
3182
3171
83 29 32
3160
116 38 39
2756
118 14 5
2746
119 49 44
2736
96 V}
80 6 49
2877
97 33 5
81 43 57
3864
09 6 10
83 21 23
2851
2679
2666
2653
26 6 4
20 6 38
2661
27 43 36
2647
29 21 27
2634
2833
18 32 53
2853
16 59 34
2883
74 45 7
3111
73 17 "
3106
7» 49 9
3101
102 34 1
3158
101 7 2
3140
99 39 4i
3x21
108 30 40
2773
no 5 43
2761
in 41 2
*749
93 12 11
*575
94 51 4o
2564
96 31 25
*55*
39 H 50
02 59 50
90 48 27
2556
40 54 46
61 31 42
*543
42 34 59
2531
3101
3106
60 3 40
3114
3°3i
89 18 53
3020
87 49 5
3008
109 II 9 2710
107 34 43 2695 105 57 57
268X
Digitized by
Google
92
JUNE, 1882.
AT APPARENT NOON.
I
o
I
Apparent
Bight Ajcention,
THE SUN'S
Var.
in
1 hour.
Apparent
Declination.
Var.
in
1 hour.
8ideral
Time of
theSemi-
paaaing
the
Meridian.*
Equation of
Time,
to be
eubt.from
added to
Apparent
Time.
Var.
in
1 hour.
Thur.
Frid.
Sat
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
Sun.
Mon.
Tues.
Wed.
Thur.
Frid,
Sat
m s
37 009
41 5'8o
45 "'9°
49 »8*3 6
53 *5'i9
57 3* '30
1 39*86
5 47*67
9 5577
It
415
12-77
22 21*02
26 30*68
30 39*91
34 49*8
38 58-78
43 836
47 i8*oo
51 27-68
55 37 '3 6
59 47 - °2
56*64
6 a I9
12 15*65
6 16 24*99
6 20 34*19
6 24 43-24
6 28 52*10
6 33 0-77
6 37 9*22
6 41 1743
s
0*229
0*246
0*262
0-177
0*291
0*306
0319
0*331
o*343
o*3S4
0*364
0*373
0*381
0*388
0*393
0*397
0*400
0*402
0*403
0*403
0*402
0*399
0*396
0*392
0*386
0*380
0*373
0365
o*3S7
o'347
o /
N.22 4 56*5
22 12 51
22 20 22*5
22 27 30*5
22 34 15*0
22 40 35*8
22 46 32*8
22 52 5
22 57 14*6
23 I 59
23 6 19
23 10 15*6
23 13 470
23 16 53*9
23 19 36*1
23 21 53-
23 23 46*
23 25 14*6
23 26 18*0
23 26 56-5
23 27 10*2
23 26 59*1
23 26 23*2
23 25 22*6
23 23 57*3
23 22 7*2
23 19 525
23 17 13-3
23 14 95
23 10 41*4
10*337 N.23 6 48*9
20*25
19*29
18*32
17*34
16*36
1537
1437
I3 # 37
12-37
ii*35
io*34
9*32
8*30
7*27
6*24
5*22
4* 19
3* 16
2*12
1*08
0*05
0*98
2*0X
3*04
4*07
5*io
6*12
71s
8*x6
918
10*19
•
8*41
8*47
8-52
8-57
8-6i
8*66
8*70
8*74
8*78
8'8i
8*84
887
8-89
8-91
893
8*94
5' 9 2
8*96
8-97
8*97
8*97
8*96
8*95
8*94
893
8*91
8*89
8*86
8-84
8*81
8-77
2 27*72
2 18*60
2 9*09
* 5
1 4!
1
•20
. "9$
3&*37
1 27*46
1 16-24
1 4*73
o 5294
o 40*91
o 28*65
o 16*18
o 2J£
o 924
o 22*14
o
o
48-18
I 1*26
* H'35
1 27*42
1 40*45
1 5:
53-41
6-27
2 19*02
2 31*63
2 44*08
2 5635
3 8*43
3 20*29
3 3i '9*
s
0372
0*388
0*404
0*419
o*434
0*448
0*461
0*474
0*485
0*496
0*506
0*515
0*523
0*530
o*535
o*539
0*542
0-544
o*545
o*545
o*544
0*541
0*538
o*534
0*528
0*522
0*515
0*507
o'499
0*489
0*479
*Mean Time of the Semidiameter passing may be found by subtracting o 8 • 19 from the Sidereal Time.
Digitized by
Google
II.
JUNE, 1 88a.
93
AT MEAN NOON.
I
I
*€
THE SUN'S
Apparent
Right Ascension.
Apparent
Declination.
Semi-
Equation of
Time,
to 6c
added*
eubt.from
Mean
Time.
Sidereal Time.
Thur.
Frid.
Sat
Sun.
Mon.
Tnee.
Wed.
Thur.
Frid.
Sat
Sun,
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SuH»
Mon.
Tuea.
Wed.
Thur.
Frid.
Sat
Sun.
Mon.
Tues.
Wed.
Thus:
FrioV
Sa£
10
ii
12
13
14
*5
16
18
*9
20
21
22
*3
»4
2
27
28
29
30
3«
h m s
4 37 o*5i
441 619
4 45 12*20
4 49 18*70
4 S3 25-50
4 57 3*' 6 4
5 1 40*11
5 S 47'89
5 9 55*96
5 14 4'3°
5 18 12*89
5 22 21*71
5 26 30*73
5 30 39*92
5 34 49'* 6
5 38 58*71
5 43 8*26
5 47 >7*87
5 5» «7-SJ
5 55 3715
5 59 46-77
N.22 4 57 -j
22 12 51-8
22 20 23*1
22 27 31*0
22 34 15*5
22 40 36*2
22 46 33-I
14*8
22 52
22 57
I S9 'I
6 19*8
23 6
23 10 15*6
*3
23
23
U
19 3
47*0
s i:?
23 21 53*6
23 23 46*5
23 25 14-6
23 26 18-0
23 26 56-5
23 27 10*2
6 3 56*35 » 23 26 59-2
6 8 587
6 12 15*29
6 16 24*59
6 20 33*76
6 24 42*76
6 28 51*59
6 33 0*23
6 37 8*64
6 41 16*82
23 26 23*3
23 25 22*7
23 23 57*4
23 22 7*4
23 19 52*8
23 17 13*6
23 14 9*9
23 10 41*9
N.23 6 49*5
47 4
47*3
15 472
48*2
481
479
47'8
47*7
47*6
5 47*'
5 47'o
5 46'9
5 46/8
5 4<j'7
5 46- 7
5 466
5 465
5 46 4
5 4«- 4
5 463
5 46-3
46*2
46*2
46**
4 i
46
46-
46-
15 46*0
2 27*71
2 18*58
2 9*07
i 59* 19
1 48*9:
1 3831
1 2745
1 16*23
1 4* 72
o 5**93
o 40*90
o 28*64
o i6*i8
o 355
o 9*24
o 22*14
o
o
3513
48*17
1*25
'4*34
27*41
4C43
53-39
6*25
19*00
31*60
44*05
56* 33
8*40
20*26
3 3188
b ■ •
4 39 28*22
4 43 H'78
4 47 *i # 33
4 5i -7*89
4 55 14*45
4 59 II'OI
5 3 7-S6
5 7 412
5 11 0*68
5 H 57'*3
5 '8 53*79
5 ** 50-35
5 26 46*91
5 30 43 46
5 34 4002
5 38 3658
5 4a 33-*4
5 46 29*69
5 50 26*25
5 54 «8i
5 58 19-37
6 2 15*92
6 6 12-48
6 10 9*04
6 14 559
6 18 2*15
6 2i 58*71
6 25 55-27
6 29 51*82
6 33 4838
6 37 44*94
The Semidiameter for Apparent Moon may be ammed the sue u that for Mean Noon.
Digitized by
Got
o
94
JUNE, 1881.
in.
MEAN TIME.
A
10
tl
It
»3
*4
IS
16
:i
»9
20
21
22
*3
24
27
28
29
30
3*
THE SUN'S
Apparent
Longitude, Xatitade,
Aboii.
Of*
70 50 iO'5
71 47 36*
72 45 1-8
6N,
73 42 26*2
74 39 49*9
75 37 12
76 34 35*2
77 3 1 57'°l
78 29 iSi*
5
9 26-39-3
o 23 59-
8l 21 20*<
9 £'
oS,
82 18 39*7
83 15 589
84 13 17
85 10 36*0
W 7 53
87 5 10
88 2 27-1
88 59 42
89 56 58-0
90 54 12-5
91 51 26-4
92 48 39-7
93 45 52*4
94 43 4' 7
95 40 rf'S
96 37 28*0
97 34 39*3
98 31 50-3
Noon.
*
S.o'ii
o«oi
0'i3"
0*22
0*29
0-34
0*36
o
o
O'Oi
Lo'o5
0-18
0-31
o-43
o-55
0-65
0-72
0*006694
•006740,
•0067851
0-77
0-79
o*8o
0-78
0-73
0*67
0-59
0-48
0*36
0*23
S.o'ii
N.o'oi
99 29 i a *N.o*i3
Logarithm
of the
Radios
Vector
oftheEarth.
Noon,
Transit.
of the
First Point
of
Aries.
0*006194619 17 2i"66
•006255619
•0063154 19
•00625 56-] 19 13 25*7
9 *9**;
0*0065740
0064314
0064873
0*0065417
•0065944
•6066452
1
071
f o 1
• 00682 7<
•0068605
•0069034
0*0069377
00696
00699
1*0070256
•00705001
•0070721
0*0070921
•0071099
•Q071256
•0071393
•0071511
•0071612
0*0071697
•0071767
•0071823
0*0071864
5 33*92
.1 38*01
18 57 42*10
18 53 46-1
18 49 50*2
18 45 54 '37
8 41 58*45
8 3* 2-54
18 34 6*63
8 fO IO*72
l8 26 14*51
l8 22 18*90
l8 l8 22
l8 14 27*Oi
l8 IO 31*16
'THE MOON'S
Semidiameter.
Noon.
Midnight
15 41-3
*s si •©
»S 59*
16 5-5
16 97
10 I2'0
16 12*5
16 11*4
89
16
16
16
5*
0-3
15 54*2
6 35-25
z 39.34
17 5° 43*43
18
8
17 54 47'5-
17 5° 51*01
17 46 5S'69
59 't'
,•8
17 42
17 39 3
17 35 7*96
17 31 12*05
17 27 16*14
17 23 20 '22
17 19 24*31
4 P
38*9
30*0
15 20*8
15 II
IS 34
14 56*4
14 511
14 48*2
14 47'°
14 50*2
14 55'
IS 4«3'3
IS 55-
10 2'
16 7*9
16 n* 1
16 12*5
16 1**1
16 10*3
16 7*2
Horizontal Parallax.
Noo*.
Midnight.
1 »
57 28*8
4
1!S
16 2*
!5 57*
15 5°*
458
858
1543-1
15 34
IS -5-4!
4H 590 54
15 32
IS 134
15 *5'4
IS 3°-4
15 5i'3
16 3*j
16. 13*2
15 16
IS 7'4|
14 59
755
14 53
14 49 '4|
14 47
1448
14 52
59
15 8*i
15 19-
15 31*8
IS 44"9
15
16
"H
16 17*1
58 34' «
58 57
59 i**9
59 "3
59 "*9
59 18
59 9
58 5612
" 38'3
16*1
57 49*8
7 19'
6 47-
57 47*1
58 20*0
I
58 46*7
59 61
59 18-0
59 22*9
59 -2i*6
59 149
59 3'5
58 47'8
58 27-7
58 3'4
57 35*
.57 3-8
356 30*4
56 13-4
55 40*2
9
54 44-o
54 -4*9
14* 1
754
754
4 54
12*7
21-4
40*4
55 9*2
55 46-5
56 30*3
I
I7-9
5*5
$8 49*4
55 56-6
55 *4'5
54 56- 1
54 33*5
54 18 '4
54 "-i
54 15-8
54 *97
54 53-6
55 -6*9
56 7-7
5*5 53*9
5 Z 4 o' 9
58 28*2
59 8*7
59 *S-759 40*0
Digitized by
joogld
IV.
JUNE, 1
88a.
95
MEAN TIME.
4
1
•
1
THE MOON'S
Longitude.
Latitude.
Age,
Noon.
Meridian Patuge.
Neon.
Midnight.
Aom.
Midnight.
Upper.
Lower.
t
t
3
/ #
246 23 38-3
*59 54 3*'4
273 41 30-3
§ «
200 40 9*0
280 40 10*3
/ »
N.o 36 40*2
1 49 12*2
2 56 47*0
1 . m
N. i 13 16*2
2 23 54-1
3 27 16*7
d
10*2
17*2
b m
12 6*2
13 3*2
14 0*5
h m
* *
346
1 319
4
i
287 41 43-2
301 51 34*6
316 7 9-9
294 4| 41-2
308 58 53-9
3*3 15 54" 3
3 54 50*7
4 39 H'7
5 -5 45-5
4 18 58*8
4 55 16' 1
5 "3 -3^5
18*2
19*2
20'2
14 56-9
«5 51-5
16 442
2 28*9
3 *4-4
4 i8-x
I
9
330 24 41*2
344 4a 46-9
358 52 404
337 33 6 '0
351 47 24-2
S 56 20*3
5 15 *4"4
5 4 38*9
4 35 *''!
5 12 25-' 9
4 5* ia'7
4 14 22*6
21*2
22*2
03*2
17 35-«
18 26*2
19 17*0
5 IO*I
6 0*9
6 51-5
ii
12
12 58 10*0
26 55 30-8
40 43 13-2
19 57 57*4
13 50 39*4
47 33 i»9
3 49 39' 3
25044*1
■ 1 42 31*8
3 21 37*0
2 17-31*5
N.i 618-3
24*2
«5*2
20*2
20 8*7
21 1*7
21 56*0
8 35-0
9 **'7
»3
15
54 19 560
67 44 22-9
80 55 26*5
61 3*45*9
74 «38-7
87 25 41*0
N.o 29 24*5
8. 44 11*3
1 54 5-8
S. 7 3&* 1
1 19 5o # &
2 26 31-1
27*2
28*2
29*2
22 51*1
23 45*9
* *
10 23*5
11 18-6
12 12*8
16
18
95 52 18-8
106 34 41*8
II9 3 0'2
too 15 18*5
112 50 33 'i
125 12 13*7
2 56 439
3 49 «7 - 3
4 *9 48 4
3 *4 *4'7
4 " 3*5
4 45 9"7
.0*7
■'7
2*7
39*3
1 30*4
2 18-8
13 5-2
13 55-0
14 42*0
»9
20
XI
131 l8 28*2
143 *3 i*"9
155 20 I2 a I
137 22 1*0
149 22 27'8
101 16 55-1
4 57 7*7
5 J« 45*3
5 ">4i'4
5 5 39'8
5 12 25*1
5 5 37'3
3'7
4'7
5'7
3 4*6
3 48 'z
4 3°3
15 26*7
16 94
16 51-0
22
*3
24
167 13 7*8
179 6 179
191 4 22*5
173 9 23-9
185 4 25*2
197 6 45-8
4 57 i7'i
4 3» *"4
3 53 4*o
4 45 45*5
4 13 3**;
3 29 52*6
67
5 "'7
6 36-0
17 32-4
18 14*4
18 58*0
27
203 12 II'O
215 34 24-4
228 15 13*2
209 21 13*0
221 52 15 '5
*34 43 393
3 4 7'6
2 5 44*6
S. 59 52*0
2 36 03
* 33 35 # 7
S. 24 55 • 1
9*7
io*7
117
7 20*6
8 80
858*7
19 44-0
20 33*o
21 25*3
28
29
30
241 17 50-7
*54 44 4'4
268 33 46*2
247 57 58-1
261 36 4-9
275 36 46 3
N.o 10 50*9
i 22 559
2 32 6-9
N.o 46 58-1
1 58 io*7
3 4 7'8
12*7
13-7
14-7
9 52*7
10 494
11 476
22 20*8
23 18*4
* *
31
282 44 34*9
289 56 33*3
N.3 33 36*4
N.3 59 57 # 4
15*7
12 459
i6*9
Digitized by VjOOQ IC
96
JUNE, 1882.
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
I
Right
Ascension.
Vwr.
In io".
Declination. | in JJi.
1
Right
Ascension.
Tar.
ini«"».
Declination.
V«r.
into-*.
Thuebday I.
Satueday 3.
bus. ■
• tr *
b m s s
Of* »
O
16 18 33-65*3-855
S.2047 11*8
26*8o
O
181544*49
14*635
S.202722-6
35*9«
I
162056*8923*891
20 49 40- C
2052188
2558
I
18 18 12*30
24*633
202342*8
37 '*9
2
1623 20*3423*916
14*36
2
182040*07
24*625
20 1955*1
38-60
3
162544*0023-960
205441*3
2313
3
1823 7*8o
24*618
20 15 59-6
39-92
4
1628 7-86
*3*993
2056564
21*90
4
182535-49
1828 3*13
24*611
20 II 56-I
4i**3
5
16 3031-91
24*026
2059 4*1
20 '66
5
24*603
20 7448
42*53
6
16 32 56*17
24*058
21 i 43
19-41
6
18 3030*72
H'593
20 325*7
195858*9
4383
7
16 35 20*61
24-089
21 257*0
i8*i6
7
183258*25
H-5^3
45*11
8
16 374524
24*120
21 442*2
16*90
8
183525*72
24*57*
I9 54 24*3
46*42
9
1640 10*05
24*150
21 6 19-8
15*63
9
18 375311
24 -56c
194941*947-71
10
1642 35*04
24*178
21 749*8
H*37
10
184020-44
184247-09
1845 14*86
*4*54*
I944 51-8
48*98
11
1645 0*15
24*206
21 912*2
13*09
11
*4 # 535
I9 39 54-I
5025
12
164725*51
*4'*34
21 1026*9
ii-8i
12
24*521
193448-8
5152
*3
164951-00
24*261
21 11 33*9
10-53
13
184741-94
24*507
19 29 358
5»*79
14
1652 16*64
24*287
21 12 33*2
923
14
1850 8-94
18523584
24*492
192415*3
54'<H
l S
16544244
24312
21 13 24*7
7*93
15
*4*475
191847-3
55 *3<>
l6
1657 838
*4*335
21 14 8*4
6-64
16
1855 2 *°4
24*458
19 13 117
56*55
:i
165934-46
17 2 0*69
H'359
211444*4
5*34
w
18572934
*4*44*
19 728*7
57*78
24*38*
21 15 12-5
4-03
185955-94
H*4*3
19 138*4
185540-6
59-01
*9
17 4*7'<>4
*4*403
21 15 32*7
1-71
'9
19 222*42
*4'405
60*24
20
17 653*52
24-423
21 15450
1*40
20
19 448*80
•4*387
18 49 355
61-46
21
17 920*12
24*443
21 15495
0*08
21
19 715*06
24*367
1843 23*1
62*67
22
17 11 46-84
24-462
21 1546*0
1-24
22
19 941*20
24*346
1837 35
S. 18 3036*7
63*87
*3
171413*6724-480
S.2I I5 34'6 *-57
23
19 12 7*21
*4'3»5
65*06
Feida
7 2.
SUHDA
* 4.
17 1640*6024-497
S.21 15 15*2
3*90
i9i4 33-io|24-304
S.1824 2*8
66*24
I
17 19 7-63
172134*76
24-513
21 1447*8
5**3
I
19 1658*8624-282
18 1721*8
67*42
2
24-529
21 14 12*5
6-56
2
191924-4824*259
18 10 33*7
18 338-6
1756 36-6
68*60
3
1724 1-98
*4'543
21 13 29*1
7*89
3
192149-97
24-237
69-76
4
17 2629*28
*4'557
21 12 37*8
9*23
4
192415*32
24* 2 13
70*91
i
1728 56*66
24-570
21 n 384
10*57
5
192640*53
1929 5*60
24*190
1749277
72*06
17 31 24*12
24-582
21 10 31*0
11*91
6
24-165
1742 11-9
73-20
I
173351*64
17 36 1922
24-592
21 9155
1325
?
19 31 30*51 24-140
'734 493
74*3i
24*601
21 752*0
14-58
193355*2824*115
I727 20*I
75-43
9
173846*86
24*611
21 620*5
15-9*
9
19 36 19*89
24*089
I7I944 # I
76-55
10
174114*55
14-618
21 440*9
17*17
10
193844*35
1941 8*65
24-063
17 12 1*5
7765
11
174342-28
1746 10*05
24*625
21 253*2
18*62
11
24-037
1656 16*7
78*73
12
24*632
21' 057*5
19*96
IS
194332*80
24*01 t
79-8x
13
1748 3786
24*638
205853*7
21-30
13
194556*78
1948 20*60
*3"9»3
1648 14*6
80 -88
14
1751 5*70
24-642
20 5641*9
22*63
14
13-956
1640 6*1
8t*94
IS
175333*56
1756 i*44
24-645
20 54 22 * 1
23-97
«S
195044*25
13-918
1631 51-3
81-99
16
24-647
2051 54*2
25*32
16
19 53 7*74
13*901
16 23 30*2
84*03
17
175829*33
24*649
2049 x ^' 2
26*66
II
1955 31*06
23*873
1615 2*9
85*06
18
iS 057*23
24*650
204634*3
27*99
195754*21
*3*844
16 629-5
86*07
19
18 325-13
24*650
204342-3
29*33
19
20 17*19
13*816
155750*0
87-08
20
is 553-03
24-649
204042*3
30-67
20
20 2 40 * 00
13*787
15 49 4*5
88*o8
21
18 8 20 92
18 1048-80
24*648
203734*3
3*'99
21
20 5 2*63
13-758
1540 13*0
89*07
22
•4*645
20 34 18*4
33 '3*
22
20 725*09
13*718
1531 15*7
90-04
23
18 13 16*66
24641
203054*5
34"65
*3
20 947-37
23*699
15 22 12*5
91*01
*4
l8l 5 44'49|*4-6 3 7
S.20 27 22*6
35 -9»
24 20I2 9*4823*670
S.1513 3-6
91-96
Digitize
idbyGoOgl
e
i
VI.
JUNE, 1882.
97
MEAN TIME. 1
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Right
Ascension.
Tar.
inioa.
Declination.
Var.
to io».
J
Wednesday J.
MOKDAT 5.
h m s s
Of* *
h m s 1
I
O 9 * *
O
20 12 9*48
23*670
S.1513 3*6
91-96
22 228*76
22
•380
S. 62435*9
123-46
I
20 14 31*41
23*640
15 349*0
92*90
I
22 442*98
22
•36l
6 12 14*1
123*81
2
20 1653*16
23*6x1
145428*8
93*83
2
22 657-09
22 9 11*08
22
•34a
55950*2
124-15
3
201914-74
20 21 36*13
23*581
1445 3*0
94*75
3
22
•323
5 47*4-3
53456*6
x*4*47
4
*3S5»
143531*8
95*65
4
22 11 24*97
22
'306
124-78
|
20 23 57*35
23522
142555*2
96 55
i
22 13 38*75
22
288
5 22 27*0
125*08
6
2026 18 '39
23*491
14 16 13*2
97*44
22 15 52*42
22 18 6*oo
22
•271
5 955*7
125-36
1
2028 39*24
23*461
14 625*9
98*31
s
22
•»55
45722*7
125-63
20 30 59*92
*3'43-
1356335
99*17
22 20 19*48
22
'238
44448*1
125-89
9
2033 20*41
23*401
134635*9
1 00 • 02
9
22 22 32*86
22
'222
4 32 12*0
126*14
10
203540*73
23*372
133633*2
100*86
10
22 2446*15
22
•207
41934*4
126-38
11
2038 0*87
*3'34*
13 2625*6
ioi*6tf
11
22 2659*35
22
•I92
4 655*4
126*60
12
204020*83
23*312
13 16 13*1
102-49
12
22 29 12*46
22
•178
3 5415'*
126*81
13
204240*61
23*282
13 555*7
103*29
13
223125*49
22
l66
34133-7
127*00
«4
£045 0*21
23*252
125533-6
1245 8'7
104*08
14
223338*45
22
153
3 2851*2
127-18
*s
20 47 10*63
204938*88
23*222
104*86
*5
22 35 51*32
22
'140
316 7*5
127-37
16
23-193
123435*3105-62
16
2238 4*13
22 40 l6-86
22
•128
3 322*8
127-53
II
205157-05
20 54 16*84
23*163
12 23 59*rio6*37
l l
22
•Il6
2 50 37-2
127-67
*3 # *34
12 13 18*8
107-12
18
22 42 29*52
22
•105
13750-8
127*80
*9
205635*56
23*105
12 233*9
107*84
19
22 44 42*12
22
•O95
225 3-6
127-92
20
205854*10
23-076
115144*7
108*56
20
2246 54*66
22
•085
2 12 15-7
128*03
21
21 i 12*47
23*048
11 4051*2
109*26
21
2249 7*14
22
'076
1 5927*2
128*13
22
21 330*67
23*018
11 29 53*6
S.11 1851*8
109*95
22
2251 19*57
22
•067
14638*2
128*22
*3
21 548*69
22*990
110*63
23
225331*94
22
'058
S. 1 3348*6
128*29
TTJE8D1
T 6.
Thubsd
AT 8.
21 8 6*55
22*962
S.11 746*0
1x1*29
225544*27
22
•051
S. 12058*7
128*34
I
21 1024*24
22*934
105636-3
iii*94
I
225756-55
22
•O43
1 8 85
128*39
2
21 1241*76
22*907
10 45 22*7
112*58
2
23 8*79
22
•O37
055 18*0
128*43
3
21 1459*12
21 17 16-31
22*879
1034 5'3
113*21
3
23 220*99
22
•03I
04227*3
128*46
4
22*852
102244*2
1x3*83
4
23 4 33* 16
22
•026
029 36*5
128-47
i
21 1933*34
22*825
10 11 19*4
114*43
5
23 645*30
22
'021
01645*7
128*47
21 21 50*21
22*798
95051-0
948 19*2
115-02
6
23 857*41
22
•016
S. 554*9
N. 855*7
128-45
?
21 24 6*92
22*772
xi5*59
1
23 11 9-49
22
-0X2
128*43
21 2623-48
22*747
936439
xi6*i6
23 132155
22
'O08
021 46*2
128*39
9
212839-88
21 3056*13
22*721
9*5 5'3
1x6*71
9
231533*59
22
*006
03436*4
128*33
10
22*695
913234
117*25
10
23 1745*62
22
•OO3
047 26*2
128*27
11
21 33 12*22
22*670
9 » 383
84950-1
117*78
11
23 1957*63
22
•oox
1 015*6
128*20
12
21 35 28*17
22*646
118*29
12
2322 9*63
22
•OOO
113 4-6
128*12
'3
213743*97
21 39 59* 6 3
22*622
83758-8
1x8-79
•3
23 2421*63
21
•999
12553*0
128*01
14
22-598
826 4-6
119*28
H
23 26 33*62
21
'999
13840*7
127*89
15
21 42 15*15
"'574
814 7*5
119*75
15
23 2845*62
21
'999
15127-7
127*77
16
2i44 3 0# S 2
214645*76
22*551
8 2 76
120*22
16
23 30 57"6i
22
'OOO
2 414-0
2 1659-4
2 2943-8
127*64
17
22*528
7 50 4*9
73759-6
120*67
17
2333 9-62
22
*002
127*48
18
2149 0*86
22-506
121*11
18
233521-63
22
•OO3
X2 7 *33
19
21 51 15*83
22*484
72551*6
121-53
19
233733-66
22
'007
24227-3
127*16
20
21 53 30*67
215545*38
22*462
713412
121-93
20
233945-71
22
•OO9
*55 9*7
126*98
21
22*441
7 128*4
64913-1
122-34
21
2341 57-77
22
'0X2
3 75'-o
126-78
22
215759-96
22*420
122*73
22
2344 9*85
22
•0x6
3 20 31*1
126*57
*3
22 014*42
22 228*76
22*400
63655-6
123*10
23
23 46 21*96
22
'021
3 33 9*9
126*35
*4
22-380
S. 62435-9123*46
24
23 48 34*10
22
*026
N. 3 45 47-3
126*12
(nautical almanac, 1882.)
Digitized by
Googl
9 8
JU
JNE
, 1
882.
VII,
•
MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
Bight
Ascension.
far.
in io*.
Declination.
far.
ini©**.
1
Bight
Ascension.
Yar.
in io«.
Declination.
Tar.
tnio".
Fbiday 9.
SUHDAY II.
b m s s
• » *
h m s ■
Of*
O
234834-10
22*026
N- 3 45 47*3
35823-5
41057-8
Il6*X2
13542*87
22-753
N.13 2 5*8
101*29
I
23 5046*27
22*032
125*87
I
1 37 59 45
22*775
13 12 ii*a
100*50
2
23 52 58*48
12*038
125*62
2
140 16*17
22-797
13 22 11-8
99-70
3
23 55 io' 72
22*044
42330-7
436 19
i*5'34
3
1 42 33*01
22*818
13 32 7-6
134158-4
98*88
4
235723-01
22*052
125-07
4
14449*99
22-841
98*07
5
^3 59 35 34
22-059
4483I-5
124-78
h
147 7*10
22*863
135144-4
97*24
6
O 147*72
22-067
5 059-3
114*48
6
14924*35
22-886
14 125-3
96*39
•
O 4 0*14
22-075
51325-2
124*16
5
15141-73
22-908
1411 1*1
95*54
O 6l2-62
22*084
5 25 492
123*83
I5|59-H
1 56 16-89
22*930
142031*8
9468
9
O 825*15
21-094
5 38 II'2
12349
9
22*952
142957-3
93-81
10
01037-75
22*104
55031*
123*13
10
1 58 34*66
22-973
143917*5
9293
ii
. O 12 50'40
22-113
6 2488
122*77
11
2 052-57
22*997
144832*4
9204
12
OI5 311
22-124
615 4-4
122*41
12
2 3 10*62
23*019
145742*0
91 14
*3
O 17 15*89
O I928-74
22*136
627 17*7
63928-0
122*02
13
2 528-80
23*041
15 646-1
90*23
H
22*148
12I'6l
H
2 747'"
23*063
I5 15 44-7
152437*8
89*31
'5
21 41*66
22* 160
651 37-0
121*20
*5
2 10 5-56
23*085
88*38
16
023 54*66
22.-I73
7 3430
715464
120*78
16
2 12 24-13
23*107
15 33*5*3
87*44
I?;
026 7-74
028 20*89
22*186
120*35
17
2 1442-84
23129
1542 71
86*50
22*198
72747-2
119*91
18
2 17 i*68
23*150
1550433
15591V6
16 738-1
«5'54
19
03034*12
22*212
7 3945-3
75140-6
"9*45
19
2 1920*64
23-171
84*57
ao
03247*44
22*227
118*98
20
221 39*73
2235895
226 18*30
23 193
83*60
21
035 0*85
22'242
8 333''
118*51
21
23214
16 1556*8
82*62
22
03714-34
22*256
8 1522*7
118*02
22
*3'*35
xr^ 24 2 S
N.1632 16-3
81*62
23
03927*92
22'272
N. 827 ff'i
117*51
23
22837*77
23*256
80*61
Satuedj
lY IO*
MOHDA'
r 12.
O
041 41*60
12*288
N. 83852*8
n6*99
O
23057*37 23-277
^164017*0 79-61
I
04355-38
22*304
850 332
116*47
I
23317*09
23536*93
23756*89
23*297
1648 n*6
78*59
2
046 9*25
22*321
9 2 io*4
115*93
2
23*317
1656 O'l
77*57
3
048 23-23
22*338
91344-4
'I5-38
3
23*337
17 342*5
76* 54
4
050 37*30
22-354
92515*0
114*82
4
240 16-97
»3*357
17 11 18*6
75*49
5
052 51*48
22*372
9 3642*2
114-15
i
24237*17
24457*48
23 376
171848-4
74*44
6
055 5*77
22*390
948 6*o
11367
«3*395
1726 11-9
73*38
i
05720*16
22*408
959 26*2
113*08
2
24717*91
24938-44
23*413
1733 29*0
72-32
05934*66
22*427
10 1042*9
112*48
23*43*
174039*7
71-25
9
1 149*28
22*446
1021 55*9
111*85
9
2515909
23-450
174744*0
70*17
10
1 4 4*01
1 618*85
22*464
1033 5*1
111*22
10
25419-84
25640-70
23-468
i7544i*7
18 132*9
69*08
ii
22*483
1044 io*6
110*59
11
23*485
67-98
12
1 833*81
22*503
1055 lz ' 2
109*94
12
259 i*66
23 502
18 817-5
66*88
*3
1 1048*89
22*523
11 6 9*9
109*28
13
3 122*72
3 343*88
3 6 5-^4
3 826-49
23*518
l l H55 cl
182126-8
65*78
H
1 13 4*08
22-543
11 17 3-5
108 '60
14
*3*535
64*66
if
1 15 19*40
22*563
11 2753-1
107*92
•i
«3"55*
182751*4
63-53
1 I7 34'84
21*583
11 3838-6
107*23
16
23-566
18 34 9-2
62*40
:i
1 1950*40
22*604
11 49 19*8
106*52
'Z
31047*93
3 *3 9-4*5
23-581
184020-2
61*27
122 6*09
22*625
11 5956*8
105*81
18
23-596
184624*4
60*13
*9
1 2421*90
12637-84
22*646
12 I0 29'5
105*08
19
3 1531-08
23-609
18 5221-7
58*98
20
22*667
12 2057*8
104*35
20
31752-77
23*622
18 58 12-2
57*83
21
1 2853-9022*688
12 31 21*7
103*60
21
32014*54
322 3639
13*635
19 355*7
56*67
22
1 31 io- 1022*710
I24I 41'0
102-83
22
23*648
19 932*2
55*50
23
1 3326-4222-731
I2 5I55*7
102-07
23
32458-32
23*660
19 15 1*7
54*33
•4
I35 4*-87|22*753
N.13 2 5*8
101*29
24
32720*31
13*671
N.I9 20 24*2
53*17
Digitized by
Google
VIII.
JUNE, 1882.
99
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
i
Sight
Ascension.
Ysr.
In idF.
Declination.
Vsar.
in io".
T
Right
Ascension.
Vtr.
InidP.
Declination.
Ysr.
inio".
TUESDAY 13.
Thuesday 15.
h m s s
/ * *
h m • s
1. * H
O
3 2720*31
•3-671
N.I9 20 24'2
53*17
521 2-75
83-436
N.21 1442-0
5*78
I
32942-37
15 '68s
192530*7
19 3048*0
51-98
I
5 23 23-30
*3'4l3
21 14 V7
21 13 l8'2
6*98
2
3 3426*08
23-693
50*79
2
52543-71
•3*39<>
8*19
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16.
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23-758
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6 1630*56
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2
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3
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3
623 18-68
22*618
20 1638*4
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4
4 33 49*7
436 12-05
4 38 34* 38
44056-65
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21 1435
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20 12 56*0
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i
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21 3331
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5
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20 9 73
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21 515*2
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6
630 4*78
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20 5 12*4
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1
9
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21 649-8
15 15
1
9
6 32 19*70
22*466
20 iii*3
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4431887
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21 817*0
21 936-7
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1957 4'i
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10
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21 1048-9
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11*41
10
639 3 * 02
641 i6*99
22*348
i948 3i-3
1944 5 -8
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11
45025*11
S3* 66s
10*17
11
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44*74
12
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21 1250*9
21 1340*8
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12
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22-267
19 39 344
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7-69
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6 45 44- 19
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19 34 57* 1
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14
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19.25 249
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5 213-94
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16
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1920 30*1
49-61
7
5 435-43
5 65682
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21 1546*1
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6564792
22 * 062
19 1529*6
5o*57
18
23556
21 1558*9
i*53
22*021
19 1023*3
51*51
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5 918*10
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21 16 44
0-30
19
6585902
7 1 ii*66
21*978
10 511-5
185954*1
5**43
20
5 11 39*27
•3*5*8
21 16 2*5
o*9S
20
21*936
53-36
21
5 14 0*32
5 1621*26
•3*499
21 15534
21 15 36-9
s-i3
21
7 3*3-15
21-893
185431*2
54**8
22
•3*479
3-36
22
7 5 34-38
21*851
1849 2*8
55*19
*3
5 1842*07
•3*458
21 15 13*1
4*58
23
7 745*3$
7 956*08
21-808
184328*9
56-09
24
521 2*75
•3*436
N.21 1442*0
5-78
24
21*765
N.18 3749*7
56-98
Digitized by
Googfe*
IOO
JUNE
> I
882.
IX.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
a
&
Right
Ascension.
Vsr.
Inio-.
Declination.
Vsr.
in 10-a.
i
Right
Ascension.
Vsr.
inio-.
Declination.
Var.
Satueday 17.
MOKDAY 19.
h m s s
t
h m • s
/
7 956*08
21 765
N.18 3749*7
56-98
84929*41
19*773
N.12 3748-7
122848*6
89*78
I
712 6-54
21*722
1832 5*2
57-87
I
85127*94
19*737
90*26
2
71416-75
21*679
1826 15*3
58-74
2
8 53 26*25
19-701
12 1945*6
90-74
3
7 1626*69
21*635
182020*3
59-60
3
8 55 2435
19-666
12 1039*7
91-21
4
7183637
21592
18 1420*1
60-47
4
8 5722*24
19-631
12 I3I-I
91-66
5
72045*79
21549
18 814-7
61*32
5
95919-92
19*597
II 52 198
92*11
6
72254-06
725 3*86
21*506
18 2 4*j
1755488
62*16
6
9 117-40
9 3 14-68
19-563
1143 s*8
92-56
1
21-463
62*99
1
19-529
II33 49-I
92* 99
727 12-51
21*419
174928*4
63* 81
9 5 "75
19-496
II 2429*9
II 15 5*1
93*4*
9
72920*89
ai'375
1743 J'i
64*62
9
9 7 8*63
19-463
93*84
10
7 31 29*01
21332
173632*9
65-43
10
9 9 5'J 1
911 i*8o
19-431
11 543-8
94' *5
11
73336-87
21288
17 29 579
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11
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1056 17-1
9466
12
7 35 44*47
21245
1723 18*1
17 16 33*6
67*02
12
9 12 58*09
19-367
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95-06
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21*201
67-80
13
9145420
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1037 16-4
95*45
H
73958*88
21-157
17 944*5
6857
14
9 1650*12
19*304
102742-5
95 83
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17 250*8
69*33
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91845-85
19-274
10 18 6-4
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74412-25
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165552-5
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16
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:?
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16 41 42*4
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18
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949 4*7
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97-30
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75030*35
75235*86
20-941
163430*8
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19
92627*02
19*158
97*65
20
20-898
1627 14*8
73*02
20
92821*88
19*129
92932-9
97*99
21
75441-12
20*854
161954-5
73*73
21
93016-57
19*102
91943*9
98*33
22
75646*11
20-811
16 12 30*0
74*43
22
9 32 11*10
19*074
9 952*9
98-66
23
75850*85
20*769
N.16 5 1*3
75*13
*3
9 34 5*4*5 19*047
N. 9 0*0
9 8-' 9 8
SUHDA
sr 18.
TUESDA
T 20.
O
8 055-34 *o'7i7
N.i5 57 28*4
75*82
9 35 59* 6 7, I 9*o22
N. 850 5-2
99*29
I
8 2 59*57
20-684
i5495i'5
76-49
I
9 37 53* 7* '8-996
840 8*5
99*60
2
8 5 355
20*642
1542 10*5
77* 16
2
9 39 47-62ji8-97i
8 30 10*0
99*90
3
8 7 7*27
20-599
153425*6
15 26 36*7
77* 8a
3
94141*37.18-947
820 9*7
100*19
4
8 9IO-74J20-557
78*47
4
94334-9818*923
810 7*7
100*48
5
8 11 13*96 20-516
8 13 16 93 20-474
8 15 19*65 20-433
151843*9
79-12
5
945 28*4418*898
8 3*9
100*77
6
151047*3
79*75
6
9 47 2I*76|i8-8 7 5
74958*4
101*05
1
15 246*9
145442*8
144634*9
143823*4
1430 8*4
80-38
1
949 I4*94'i8*852
7395i*3
101*31
8 1722-13 120-392
81 -oo
951 7-9518*830
72942-7
101*58
9
10
8 19 24* 36 [20-351
8 21 26-34 20-310
81-62
82-21
9
10
953 0-9018-808
95453-68,18-787
95646*5418-767
95838*88,18-747
71932*4
7 920-6
101*84
102 -o8|
11
8 23 28*08 20-270
82-80
ti
6 59 7*4
648 52*7
102-33!
12
8 25 29*58 20-230
14 21 49*8
83*39
12
102-57
*3
8 27 30*84 20-190
8 29 31*86 20-151
141327-7
83*97
13
10 031*3018-727
638 36-6
102 -79
»4
14 5 2*2
84*53
h
10 223-6018-708
628 19*2
103-02
15
8 31 3265 20*112
1356.33*3
85-09
15
10 4 is-jro'is^s
10 6 7'8o'i8-67o
618 0-4
103*23
16
8 33 33* 20 20*073
1348 1-1
85-64
16
6 740*4
103-45
l 7
8 35 33-52 '20034
133925*6
86-19
\i
10 7 59 , 83 l i8-6 5 3
55719-0
103-66
18
8 37 33-61 19-996
13 3046-8
86*73
10 951*7018-637
54656-5
103-85
*9
8 39 33*47
19-958
1322 4-8
87*26
19
10 11 43*4718*620
5 36 32-8
104-05
20
84133*11
19-921
131319*7
87*78
20
10 13 35*14 18-603
526 7*9104*24
21
84332*52
19-883
13 43i*5
88-29
21
10 15 20*7118*588
5 1541-9104*4*
22
84531-70
19*846
12 55 40*2
88- 80
22
10 17 18*1918-573
5 5*4*9
45446*8
104-59
23
84730-67
19-809
124645*9
89-29
23
10 19 9-5918-559
104*77
24
84929*41 19-773
N.12 3748*7
89-78
24
10 21 090 18*545
N. 44417*7104*93
Digitized by
Google
X.
JUNE, 1882.
101
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
S
7
8
9
10
ti
12
13
»4
!1
II
'9
20
21
22
23
9
10
11
12
*3
H
:i
18
19
20
21
22
23
24
Right
Ascension.
Y«r.
inio".
Declination.
Tar.
in 10".
Wbdhesday
ferns
2I 0*90
022 52*1
02443*2
026 34*36
02825*37
030 16*30
032 7*18
03357-99
03548-75
03739*45
039 30*10
041 20*70
043 11*26
045 1*77
04652*25
04842*70
05033*11
05223*49
0541385
056 4*19
05754-52
05944*83
1 135-13
1 32542
5 15-71
7 6*oo
8 56*30
1046*60
12 36*91
1 1427*23
1 16 17*57
1 18 7*94
1 195833
12148*75
12339*19
1 25 29-68
I 27 20*20
i 29 10*77
131 1*38
I 32 52*04
13442-75
13633*52
13824*35
I 40 15*24
I42 6*20
14357*22;
14548*32;
14739-50;
14930*76
s
8*545
8*532
8519
8 507
8-495
8*484
8*474
8*464
8*455
8-446
8*438
8-430
8-423
8*416
8*411
8*405
8*399
8*395
8*392
8*389
8*387
8*384
8*383
8-382
N.
N.
Thursday
8*382
8*383
8-383
8*384
8*386
8*388
8*392
8*397
8*401
8-405
8*411
8*418
8*424
8*432
8*439
8-448
8*457
8*467
8*477
8*488
8-498
8*510
8-523
8*537
8*550
s.
21.
O / I
44417
4 33 47
423 16
41244
4 2 12
35138
34i 4
3 3029-
3i9 5r
3 9 l6<
25839'
248 i-
2 3723
2 2644
2 16 5
2 525-
154 45
144 4
13323
1 2241
11159-
1 1 17-
05035-
03953-
22.
029 10*
o 18 27-
o 744-
258-
01341-
02424*
035 7
04550-
05633
1 716-
I 17 59
1 284I
139 23
150 5
2 047-
2 11 28
2 22 9
2 32 50
2433O
254IO
3 44
3152
3 26 6-
33643-
34720-
104*93
105*08
I
105*24
2
105*38
3
•05*52
4
105-66
s
105*78
105*91
7
106*03
8
106*14
9
106*24
10
106*34
11
106*44
12
106*53
13
io6*6z
14
106*68
15
106*75
16
106-82
w
106*88
106*93
19
106 '99
20
107*03
21
107*07
22
107*10
2 3
107-13
107*15
1
107-17
2
107*18
3
107*18
4
107*18
5
107*17
6
107*16
1
107* 14
107-12
9
107-09
10
107*06
11
107*02
12
106*97
'3
106*92
14
106-86
I*
106' 80
16
106*73
',1
106 -66
106*58
19
106*48
20
106*39
21
106-31
22
106*20
23
106-08
24
Right
Ascension.
Var.
in 10".
Declination.
Var.
inio*».
Friday
h m t
14930*76
I 51 22*10
153 13-53
155 5*05
I 56 56*66
1 5848-38
2 040-19
2 232*11
[2 424*14
iz 616-28
iz 8 8-54
iz 10 0*92
iz 11 53*42
:z 1346-05
\z 1538*80
\z 17 31-69
[2 19 24*71
[2 21 17*87
[2 23 II'l8
[2 2| 4
2 2658*24
2 28 52*00
[23045*92
2 32 39-99
23.
18550S.
18*564
18*579
'8*594
18*611
18*628
18-644
18*662
18*681
18*700
18*720
18*740
18*761
18*782
18*803
18*826
18*848
18-872
18*897
6418*922
18*947
'8*973
18*999
19*026!
01*
3 47 20/5
3 57 56-7
4 832*2
419 69
42940*9
44014*1
450464
5 117*8
51148-3
5 22 17-9
532465
54314-0
553405
6 4 5
6 1430
62453
63515
f 4535 *
6 55 548
7 6 12*8
7 1629*4
72644*6
736 583
747 io*6
Satueday 24.
[23434*23
2 3628-64
2 38 23*21
[240 17-96
242 12*89
244 7*9«
[246 **2&
24758*76
[24954*42
[2 51 50*28
2534634
[2 55 42-59
[2 57 39*05
[2 59 35*71
[3 132*58
3 320-67
3 526*97
: 3 724-49
[3 922*23
3 II 20*20
31318*39
3 15 I0*8l
3 17 15-47
3 19 14-37
[3 21 13-50
19*0548.
19-082
I9-IIO
19- 140
19-169
19*199
19*231
19*262
19*293
19*327
'9*359
19*392
19*427
19*461
19*497
19533
19*568
19*605
19*642
19*680
19*718
19*757
19-797
19-836
i9*876 p
7572I*
8 17380
82743-9
83748
8 47 50 .
8575i'4
9 750
91747-4
92742-5
93735-7
94727*0
95716*2
10 7 3*3
10 1648*4
1026 31*2
10 36 11-9
104550*3
1055 26*5
11 5 0-3
11 1431-7
11 24 0*7
11 33 27*2
11 42 51*2
11 52 12*6
Digitized by
LiOO
o
102
JUNE.
, I
882.
XI.
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
I
Bight
Ascension.
Vsr.
into"".
Declination.
inio**.
5
Right
Ascension.
Var.
inio".
Declination.
Var.
imo*».
Suhday 35.
Tuesday 27.
h m s •
• #
h m s s
/ » 9
O
13 21 13*50 19*876
S.II 52 I2'6
93*35
15 159*73
22*220
S.1813574
62-13
I
13 23 12*88
19-917
12 I 314
9291
I
15 413-21
22-273
1820 75
61*23
2
13 25 12*50
19*958
121047-5
9246
2
15 627*01
22*326
l8 26 12*2
60*33
3
132712-37
13 29I2'4 8
19-998
12 20 0*9
92*00
3
15 841*12
22*379
18 32 11-5
59*41
4
20' 04I
12 20 II'5
123819-3
9**53
4
151055-56
"'433
1838 53
1843 556
184936*2
5 S- 5 i
5
13 31 12*86
20*084
91*06
5
15 13 10-32
12*486
57*58
6
133313-49
20*Il6
I2 47 24'2
90*58
6
i5*5 25*39
151740*78
22*538
56*63
1
13 35 14*37
20*109
12 5626-3
90*10
7
22*592
185513*2
55*69
133715-52
20*2X3
13 5*5'4
89*60
8
15 1956*49
22*645
19 0445
54*73
9
133916-93
1341 18*61
20*258
13 142^5
89*09
9
1522 12*52
22*697
19 610*0
53*77
10
20-303
1323 145
88*57
10
15 2428-86
21*749
19 11 29*7
51*78
11
134320-56
20*348
1332 4-4
88*05
11
152645*51
11-802
191643-4,
5i*79
12
134522*78
20*393
134051-1
87-51
12
1529 2 48
11*854
1921 51-2
50*79
*3
134725-27
20*438
13 40 346
1358148
86-98
13
15 31 1976
11*906
1926 520
49-78
H
134928-04
20*485
86-43
H
I5 33 37-35
153555-26
11-958
193148*6
48*77
>5
135131-09
20*531
14 651-7
85-88
15
13-010
193638-1
47*73
16
135334*41
20*578
1415253
85-31
16
153813*47
23*061
1941 21*4
46*69
17
135538-02
20*626
H*3 55*4
84-73
l l
154031*09
1542 50*81
23*112
194558-4
45*64
18
135741-92
20*673
14 32 22 'O
84*13
18
23*162
19 50 29- 1
44*59
»9
135946-10
20*721
144045-0
83-54
19
15 45 9*93
154729-36
23*213
195453*5
43*5*
20
14 150-57
20*769
1449 4*5
82*94
20
23*263
195911-4
41*44
21
14 3 55*33
14 6 0-39
20*818
145720-3
82*33
21
154949*08
23-312
20 3 22*8
41*35
22
20*868
15 5 3**4
81*71
22
1552 9-10
23*362
20 727*6
40-15
23
14 8 5 -74 20-917
S.15 1340-8
81*08
*3
155429*42
23*411
S.20 II 25-8
39* 15
MOHDA
r z6.
Wedhbsi
)AT 28.
14 10 11*39*0*967
S, 15 2145-3
15 2946-0
80*43
155650*03
*3*459
S.20 15 17*4
38*04
I
14 12 17-3411*016
79*7«
I
155910*93
13*507
2019 2*3
36-91
2
141423-58
14 1630*13
21*066
153742*7
79*12
2
16 132*11
13*554
20 22 40*3
2026 11*6
35*78
3
21*117
1545 35*4
78*44
3
16 353*58
10 615*33
16 837-30
16 1059*66
13*602
34*64
4
141836-99
21*168
15532^0
16 1 8-6
77*77
4
23*648
2029 36-0
33*48
S
142044-15
21*219
77* 08
5
23-694
203253*4
32-32
6
142251*62
21*270
16 849-0
76*38
6
13*739
2036 3*8
31*15
I
142459-39
21*321
16 1625-2
75* 67
7
l6 13 22*24
16 1541*08
16 18 8*10
162031*56
23*785
2039 7-2
29-98
1427 7-47
21*373
16*3 57-1
74*9*5
8
23*830
20 42 3*5
28*78
9
142915-87
143124-58
21*426
16 31 24*7
74*13
9
13*873
204452*6
»7*59
10
21*478
1638470
73*49
10
23*917
204734-6
26-39
11
14333360
21*529
1646 6*6
71*74
11
162255*19
13*959
2050 9*3
25-18
12
H 35 4**93
*4 37 5**58
21*582
1653 20*8
71*98
12
1625 19*07
14*002
2052 36*7
20 54 56- 8
23-96
13
21*635
17 030*4
71*12
13
162743*21
24*043
22-73
H
1440 2-55
1442 12*83
21-688
17 735*4
70*44
14
1630 7*59
24*084
2057 9*4
21*48
*5
21*740
171435-7
69-66
*5
1632 32*22
24*124
2059 14-6
20*24
16
1444*3*43
21*793
172131-3
68*86
16
163457*08
24*164
21 I 12*3
21 3 2*6
19*00
M
H46 34*35
21*847
I728 22*0
68*05
17
163722-19
24*203
17*74
144845-59
2 x * 900
1735 7*9
174148-8
67-23
18
163947*52
24*241
21 445*2
16*47
*9
H50 57'i5
«*953
66*41
19
1642 15*08
164438*86
24*278
21 620*2
15*20
20
1453 9-03
22*006
174824-8
65*57
20
H*3*5
21 747*6
13-92
21
145521*22
22*059
175455-7
18 I 21-4
64*72
21
1647 4*86
*4*35*
21 9 73
12*63
22
H57 33*74
22*113
63*86
22
164931*08
24*388
21 10 19*2
11*34
23
145946*57
22' l66
18 742*0
63-00
23
165157*51
14*422
21 11 23*4
S.21 12 19-8
10*05
24
15 159*7322*220
S.181357'4
62*13
*4
165424*14
H*455
8*74
Digitized by
Google
XII
•
JU
IN Hi,
1 I
882.
I03
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
S
Bight
Ascension.
Var.
inio*».
Declination.
var.
in i©».
1
Bight
Ascension.
Var.
inio*.
Declination.
Var.
into".
Thursday 29.
P EI DAY 30.
h m s s
1 * n
h m • ■
/ 9
O
165424*14
165650*97
H*455
S.21 12 io*8
21 13 8*3
8-74
175551-12
175621*14
34-998
S.205436'4
33-83
I
24-488
7*43
I
25*009
2052 9-3
35*31
2
165917-99
24*520
21 1349*0
6-12
2
175851*23
35*019
204933*9
26*59
3
17 145*21
3455a
21 1421*7
4*79
3
18 121-37
35-028
2046 50*2
27-98
4
17 4 I2*6l
17 640*18
34*581
21 14 4*5-5
3*47
4
18 351*50
18 621*80
35-036
20 43 5*3' 2
29*36
§
34*610
21 15 3*3
2-13
5
25-043
204057*9
30-74
17 9 7-93
171135*85
14*639
21 15 12*1
o*8o
6
18 852*08
»5*©49
203749*3
32*12
1
34*667
21 15 I2'9
2i 15 5*6
0-54
7
18 11 22*39
15*054
203432*4
33'5o
17 14 394
*4'69i
i-88
8
18 ij 52*73
18 1623*09
35*058
2031 7-3
202733*8
34*88
9
17 1632*18
34-720
21 l l5°'Z
21 1426*8
3-23
9
25*062
36*27
10
1719 0*58
H-745
4*59
10
181853-47
18 21 23-86
25*064
2023 52*1
37*63
11
1721 29*12
34-769
21 13 55*2
5*94
11
25-065
20 20 2*2
39*01
1*
1723 57*81
172626*63
34*793
211315*5
7-30
12
182354*25
18 2624*64
25*065
20 16 4*0
40*38
«3
34*815
21 12 27*6
867
13
25-065
20 11 57*6
41*74
»4
172855*59
34-837
21 II 31*5
10-03
14
1828 55*03
25-064
20 743*1
43*10
»s
17 31 24*67
34*857
21 I027'2
11-41
15
18 31 25*41
25*061
20 320-4
44*47
16
173353*87
17 36 23 19
34-877
21 9 14*6
12-78
16
183355*76
18 3626*10
25*058
195849*5
45* 8a
3
24- 895
21 753-8
14*16
17
25*054
195410*5
47'i7
17385201
24-913
21 624*7
'5*53
18
18 38 56*41
18 41 26*68
25*048
19 49*3 4
194428-2
48-52
19
1741 22*14
24-929
21 447'4
26*91
19
«5*o43
49-87
20
174351-76
174621*48
*4'945
21 3 i*8
18*29
20
184356-92
184627*11
25*036
1939250
51*20
21
34*960
21 1 7*9
1968
21
25*028
19 34 13-8
5a*5"3
11
174851-28
H*973
2059 57
2Z*06
22
1848 5725
25*019
192854-6
53*87
23
1751 2I*l6
34-987
205655*2
22-44
23
185127*34
25*010
1923274
55*19
*4
17 S3 51*12
24-998
8.205436*4
23-83
24
185357*37
34-999
S.19 1752-3
56*51
PHASES OF THE MOON.
Jane 1
C
> Full Moon
h m
8 33*2
8
<C
Last Quarter --------
5 9 # 4
15
•
1 New Moon -------.-
6 33*i
23
J
First Quarter
6 1-3
30
c
) Full Moon
18 8*3
June 6
<L
Perigee ---•--....
h
- IS
21
<[
Apogee
• - 16
Digitized by
Google
104
JUNE, 1
882.
XIII.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L.
P.L.
$
and
Noon.
of
III".
of
VI h .
of
IX*.
of
Position.
diff.
dm
diff.
diff.
O 1 9
• t 1
O 9 *
t *
I
Regulus W.
98 II 27
2540
99 5i 45
2528
101 32 20
2517
103 13
49 18 38
2506
Spica W.
44 IS 29
2519
45 56 16
2507
47 37 19
2496
2484
a Aquil© E.
58 35 47
3 ia 3
V I 5
3'35
55 40 38
83 18 21
3H9
54 13 «8
3167
FomalhautE.
86 19 2
2998
84 48 47
2989
2981
81 47 44
4974
a Pegasi E.
104 20 52
2666
102 43 27
2653
101 5 44
2640
99 *7 43
2627
t
Regulus W.
111 41
4455
113 23 16
4447
"5 5 44
M3*
116 48 25
2429
Spica W.
57 49 7
2431
59 3i 58
2421
61 15 2
2412
62 58 19
2403
a Aquiiae E.
47 4 13
74 " 56
33"
45 40 13
3355
44 17 5
3405
4* 54 54
3462
Fomalhaut E.
»955
72 41 47
*9S5
71 10 38
»7 54 9
4957
69 39 32
2960
a Pegasi E.
91 13 32
*57»
89 33 57
2561
*553
86 14 9
4544
3
Spica W.
7i 37 55
1362
75 22 25
28 19 33
60 35 36
4354
75 7 6
4347
76 51 57
2341
Antares W.
26 37 9
2450
H33
30 2 21
2418
31 45 30
2404
Fomalhaut E.
62 5 44
3004
3019
59 5 47
3037
57 36 20
3057
a Pegasi E.
77 51 23
2510
76 10 23
2505
74 29 16
2500
72 48 3
2496
a Arietis E.
121 8 13
2415
119 25
2406
117 41 33
2398
"5 57 55
2389
4
Spica W.
85 38 27
2312
87 24 9
2307
89 9 58
2303
90 55 53
2298
Antares W.
40 25 30
4355
42 10 10
4347
43 55 *
2340
45 4o 4
4333
FomalhautE.
50 16 47
32x6
48 50 56
3262
47 20
33'3
46 2 3
3374
a Pegasi E.
64 20 57
2489
62 39 28
2490
60 58 O
2492
59 l6 35
4495
a Arietis E.
107 17
4355
105 32 20
2350
103 47 33
118 12 58
«345
102 2 39 2340
Saturn E.
121 42 19
4357
119 57 42
2352
2346
116 28 6
4344
5
Spica W.
99 46 54
2282
101 33 20
2280
103 19 49
2278
105 6 21
2276
Antares W.
54 27 17
2309
56 13 3
2305
57 58 55
2302
59 44 5'
2300
FomalhautE.
39 " 59
3804
38 7 1
3929
36 54 11
4073
35 43 43
4238
a Pegasi E.
50 51 4
2528
49 10 29 2539
47 30 10
2552
45 5o 9,4567
a Arietis E.
93 l6 34
2322
91 31 7! 2319
89 45 35
2317
88 1
2315
Saturn E.
107 42 21
2325
105 56 58| 2322
104 n 30
2320
102 26
2318
Sun E.
132 37 46
2585
130 58 30
2582
129 19 n
2580
127 39 48
4577
6
Antares W.
68 35 24
2290
70 21 38
2290
72 7 52
2288
73 H I
2288
a Pegasi E.
37 36 29
2688
35 59 33
2725
34 23 *7
2768
32 48 18
2819
a Arietis E.
79 11 40
2311
77 25 57
2312
75 40 15
2312
73 54 33
88 20 41
2313
Saturn E.
93 37 5*
23U
91 52 8
2311
90 6 25
2311
2311
Sun E.
119 22 19
2572
117 42 45
2571
116 3 10
2570
114 23 34
2571
7
Antares W.
82 45 30
2289
84 31 45
2291
86 17 57
2292
88 4 9
2293
a Aquiiae W.
37 22 27
3610
38 40 50
3510
40 1 3
61 35 35
3422
41 22 55
3344
a Arietis E.
65 6 28
2322
63 21
2324
2327
59 50 15
2330
Saturn E.
79 3* 7
2314
77 46 28
2315
76 50
2316
74 15 13
2317
Sun E.
106 5 43
*573
104 26 n
*575
102 46 42
2576
101 7 14
4577
8
Antares W.
96 54 29
2303
98 40 24
2305
100 26 16
2308
102 12 4
2311
a Aquiiae W.
48 3 1 35
3072
50 19
3<>34
51 29 50
30 28 15
3000
53 3
2970
Fomalhaut W.
28 54 42
6074
29 39 9
5642
5281
31 21 36 4975
a Arietis E.
51 4 58
*353
49 20 16
4359
47 35 43
2366
45 5 1 19 4373
Saturn E.
65 27 50
2327
63 42 30
2330
61 57 14
*333
60 12 2
4335
Sun E.
92 50 30
2588
91 n 18
2590
89 3* 9
2593
87 53 4
2596
9
Antares W.
no 59 56
2327
112 45 16
2331
114 30 30
»335
116 15 38
4339
a Aquiiae W.
60 39 17
2863
62 12 24
2848
63 45 49 2836
65 19 30 2825
Digitized by
Google
XIV.
JU
«J!i, I
882.
105
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
•
P.L.
P.L.
P*L.
i
and
Midnight
of
XV*.
of
XVIII h .
of
XXI\
of
Q
Position.
dm
diff.
diff.
ditZ
Of*
t '
O t K
t n
I
Regains W.
104 54 H
*495
106 35 34
2485
108 17 9
*475
IO9 58 58
2465
Spica W.
51 o 13
*473
52 42 4
2462
54 24 10
*45i
50 6 32
*44*
a Aquil® £.
52 46 39
3i87
51 20 14
32x2
49 54 19
3240
48 28 57
3*7*
FomalhautE.
80 16 59 2968
78 46 6
2963
77 15 7
2959
75 44 3
2957
a. Pegasi £•
97 49 25
2615
96 10 50
2603
94 3i 59
2592
92 52 53
2581
£
Regulus W.
118 31 18
241 z
120 14 22
2414
121 57 37
2407
123 41 2
2400
Spica W.
64 41 50
*394
66 25 33
2385
68 9 29
38 55 28
65 6 45
2377
69 53 36
2369
a Aquilse E.
il H 47
68 8 29
35*9
40 13 55
3607
3695
37 3f 35
3796
FomalhautE.
2965
66 37 33
2972
2981
63 36 8> 2991
a Pegasi E.
84 33 56
2536
82 53 33
2528
81 12 59
2521
79 32 15
2515
3
Spica W.
78 36 57
*334
80 22 7
2328
82 7 25
2322
83 5« 52
2317
Antares W.
33 28 59 2393
56 7 18; 3082
35 " 44
2382
36 56 45
2371
38 41 1
2362
Fomalhaut E.
54 38 46
3109
53 "> 47
3140
51 43 26; 3175
a Pegasi E.
71 6 44] 2493
69 25 21
2491
67 43 55
2489
66 2 27 2488
ft Arietis E.
114 14 4*2382
112 30 3
*375
no 45 52
2367
109 1 30! 2361
4
Spica W.
92 41 55j "95
94 28 2
2291
96 14 15
50 56 2
2288
98 32J2285
Antares W.
47 *5 15 *3*7
49 10 35
2322
2317
52 41 36; 2313
FomalhautE.
44 39 H;3438
43 i7 4o
35"
41 57 29
3597
40 38 52:3694
a Pegasi E.
57 35 H.*499
55 53 59
2504
54 1* 51
2510
52 31 52 2518
a Arietis E.
IOO 17 372335
114 43 8 2338
98 32 29
2331
96 47 15
2328
95 * 57j*3*5
Saturn E.
112 58 4
*335
in 12 55
2331
109 27 40 2328
5
Spica W.
106 52 56
1274
108 39 34
2273
no 26 13
2271
112 12 55!2270
Antares W.
61 30 51
2297
63 16 55
2295
65 3 2
2293
66 49 12I2291
FomalhautE.
34 35 53
44 10 28
44*9
33 30 58
4650
32 29 16
4906
31 31 65207
a Pegasi E.
2585
42 31 12
2605
40 52 24
2629
39 14 8 2656
a Arietis E.
86 14 24
2314
84 28 45
2313
82 43 5
2312
80 57 23'23II
Saturn E.
100 40 26,2316
98 54 50
2315
97 9 12
2313
95 *3 3 2 ;*3n
Sun E.
126 22*2576
124 20 54
*575
122 41 24
*573
121 1 522572
6
Antares W.
75 40 25(2187
77 26 42
2288
79 " 59
28 10 13
2289
80 59 15,3289
a Pegasi E.
31 14 I5j28 7 9
29 41 29
2950
3035
26 40 43 ! 3136
a Arietis E.
72 8 52 2313
86 34 571*3"
70 23 12
84 49 14
2315
68 37 35
2317
66 52 2319
Saturn E.
2311
83 3 3i
2311
81 17 48I2313
Sun E.
112 43 59*S7i
in 4 24
2571
109 24 49
2572
107 45 15 2573
7
Antares W.
89 50 18:2295
91 36 25
2297
93 22 29
2298
95 85: 2301
a Aquil® W.
42 46 i6 ; 3276
44 10 55
56 19 50
3215
45 3 6 46
3161
47 3 4- 3»4
a Arietis E.
58 5 °! a 334
2338
54 34 46
68 58 39
2342
52 49 48 2348
Saturn E.
72 29 392319
7 o 44 8
2321
2323
67 13 13 2325
Sun E.
99 27 48
*579
97 48 24
2581
96 9 3
2583
94 *9 45. *5»5
8
Antares W.
103 57 47
2313
105 43 27
2317
107 29 1
2320
109 14 31:2324
59 6 33| 288o
ol Aquilae W.
54 30 54
*943
56 2 18
2919
57 34 12
2898
Fomalhaut W.
32 18 51
47*4
33 l 9 39
4491
34 23 39
4*97
35 3° 34 4«9
a Arietis E.
44 7 6
2381
42 23 4
2390
40 39 15
2400
38 55 41,2411
Saturn E.
58 26 54
*339
56 41 51
2341
54 56 51
82 56 12
*345
53 ll 57 *34*
Sun E.
86 14 3
*599
84 35 6
2601
2605
81 17 24 2608
9
Antares W.
118 40 2344 119 45 35 *34«
121 30 24
*353
123 15 6 2359
a. Aquilae W.
66 53 26 2815 1 68 27 34(2807
70 1 53 2801 71 36 20 2795
Digitized by
Googk
io6
JUNE, 1
882
i*
XV.
MEAN TIME.
LUNAB DISTANCES.
i
Star's Name
and
Position.
Noon,
P.L.
of
diff.
IIP*.
P.L.
of
diff.
VP.
P.L.
of
diff.
IX h .
PX.
of
diC
9
FomalhautW.
a Arietis E.
Saturn E.
Sun E.
O t *
36 40 8
37 12 22
51 %i 7
79 38 39
3984
*4H
*35»
2612
1 •
37 5* 3
35 29 21
49 4* *3
78
3«S7
*437
»355
2615
1 *
39 6 7
33 46 39
47 57 44
76 21 25
3745
*453
*359
2618
1 It
40 22 7
32 4 20
46 13 II
74 4« 55
3647
2471
2364
2623
10
a Aquils W.
FomalhantW.
aPegasi W.
Saturn E.
Sun E.
73 *° 55
47 4 54
25 50 3
37 3* *
66 31 50
2791
33<>3
315*
1388
1644
74 45 35
48 29 1
27 17 2
35 48 9
64 53 54
2787
3256
3069
*$«
2649
76 20 20
49 54 4
28 45 50
63 16 5
2785
3*i5
2996
2400
2654
77 55 8
S» *9 55
30 16 7
32 20 49
01 38 23
2784
3177
2936
2406
2658
ii
aAquil© W.
FomalhautW.
aPegasi W.
Sun E.
85 40 4
58 38 53
38 3 4
53 3» 37
2792
3046
2752
2686
I 7 z l 4 5
60 8 8
39 38 35
5i 54 39
2796
3028
2731
2692
88 58 15
61 37 46
4i 14 33
50 17 49
2801
3013
2713
2698
90 32 41
6 3 7 43
42 50 ss
48 41 7
2808
3000
2698
2705
12
a Aquila W.
FomalhautW.
a Pegasi W.
Sun E.
98 22 31
70 40 49
50 56 46
40 39 54
2851
2959
2656
2741
99 55 53
72 11 53
52 34 26
39 4 8
2862
2956
2652
*749
101 29 1
73 43 *
54 12 10
37 2g 33
2875
*954
2649
*757
103 1 52
75 14 «
55 49 5«
35 S3 8
2887
*953
2648
2765
*3
FomalhautW.
a Pegasi W.
Sun E.
82 49 56
63 50
27 58 58
2965
2655
28x2
84 20 53
65 36 41
26 24 46
2970
2658
2822
85 51 44
67 14 17
24 50 47
2976
2663
2834
87 22 27
68 51 47
23 17 3
2983
2667
2846
17
Sun
Regains
Spica
W.
E.
E.
20 47 9
4i 48 35
95 28 35
3176
2860
2811
22 13 47
40 15 25
93 54 21
3186
2874
2821
23 40 13
38 42 33
92 20 21
3195
2889
2833
25 6 28
37 10
90 46 36
3205
2904
2844
18
Sun
Regains
Spica
W.
E.
E.
32 14 43
29 32 17
83 1 18
3256
2989
2897
33 39 46
28 1 51
81 28 55
3267
3009
2906
35 4 36
26 31 50
79 56 44
3»77
3031
2917
36 29 15
25 * 15
78 24 47
3287
3055
2927
19
Sun
Spica
An tares
W.
E.
E.
43 *9 37
70 47 59
116 11 8
3333
2972
2993
44 53 10
69 17 11
114 40 47
3343
2980
3002
46 16 32
67 46 33
113 10 37
335a
2989
3010
U il 1
III 40 36
3359
2996
3017
20
Sun
Venus
Spica
Antares
W.
W.
E.
E.
54 33 33
25 10 28
58 46 6
104 12 39
3395
3&»S
3030
3<>49
55 55 55
26 28 36
57 16 31
102 43 27
3401
3621
3036
3«>5S
57 18 10
27 46 48
55 47 *
101 14 22
3407
3615
3042
3060
58 40 l8
29 5 6
54 17 4i
99 45 *3
3413
3611
3046
3064
21
Sun
Venus
Spica
Antares
W.
W.
E.
E.
65 29 40
35 37 18
46 52 15
92 21 47
3433
3602
3065
3083
66 51 19
3 6 55 5Q
45 23 *3
90 53 16
3435
3600
3068
3085
68 12 56
38 14 24
43 54 35
89 24 48
3438
3598
3070
3087
69 34 30
39 33 °
42 25 49
87 56 23
3439
3597
3072
3089
22
Sun
Venus
Mars
Regulus
Spica
Antares
W.
W.
W.
W.
E.
E.
76 22 3
46 6 28
22 54 37
19 45 26
35 * 18
80 34 37
3440
3586
3470
3252
3073
3091
77 43 34
47 25 18
H 15 35
21 10 33
33 33 36
79 6 16
3439
3583
345i
3228
3073
3090
79 5 6
48 44 11
25 36 54
22 36 9
3* 4 53
77 37 54
3438
3579
3433
3208
3072
3088
80 26 40
50 5 8
26 58 33
24 2 9
30 36 9
76 9 30
3435
3575
3417
3191
3069
3087
*3
Sun
W.
87 15 22
3416
88 37 21
3410
89 59 26
3405
91 21 37
3399
Digitized by
Got
o
XVI.
JUNE, 1
882.
I07
*
MEAN TIME*
LUNAR DISTANCES.
%
Start Name
and
Position.
Midnight.
p.i*
of
diff.
xv>.
P.L.
of
ditZ
xvm h .
P.L.
•f
diff.
XXI*.
P.L.
of
din*
9
FomalhautW.
a Arietis E.
Saturn E.
Sun E.
1 1
4i 39 5*
30 22 26
44 28 44
73 431
3561
249a
2368
2627
O 9 *
42 59 8
28 41 1
42 44 23
71 26 12
3484
2517
2372
2631
1 *
44 19 50
27 11
41 0. 8
69 47 59
34i6
*545
«377
2635
1 H
45 41 48
25 20
39 16 1
88 9 51
3357
*579
2382
2640
IO
a Aquila W.
FomalhautW.
a Pegasi W.
Saturn E.
Sun E.
79 *9 57
52 46 32
31 47 40
3o 37 *3
60 9 47
2783
3*44
2886
2413
2664
81 4 47
54 13 4»
33 2 ° *7
28 54 6
58 23 19
2784
3"5
2843
2421
2669
82 39 35
55 4i 39
34 53 49
27 11 1
56 45 58
2786
3089
2808
2429
2673.
84 14 21
57 10 2
36 28 7
25 28 7
55 8 44
2789
3066
2778
*437
2680
ii
a Aqtril® W.
FomalhautW.
a Pegasi W.
Sun E.
92 6 59
64 37 56
44 27 38
47 4 34
2815
2988
2686
27x2
60 8 23
46 4 37
45 28 10
2822
2978
2675
2719
95 15 7
67 39 3
47 4i 50
43 5i 55
2831
2971
2667
2726
96 48 55
69 9 52
49 *9 H
42 15 49
2840
2965
2661
2734
12
a Aquilae W.
FomalhautW.
a Pegasi W.
Sun E.
104 34 27
76 45 25
57 27 48
34 17 54
290T
2953
2647
*774
106 6 44
78 16 35
59 5 39
32 42 52
2917
*954
2648
2783
107 38 4*
79 47 45
00 43 28
31 8 2
*934
2956
2649
2792
109 10 17
81 18 53
62 21 10
29 33 23
2952
2960
2652
2802
»3
FomalhautW.
a Pegasi W.
Sun E.
88 S3 1
70 29 11
*i 43 35
2991
2673
2858
90 23 25
72 27
20 10 22
3001
2679
2872
91 53 37
73 43 35
18 37 28
3010
2685
2887
93 23 37
75 *o 35
17 4 52
3022
2692
2903
17
Sun
Regulus
Spica
w.
E.
26 32 31
35 37 46
89 13 5
3215
2920
2854
27 58 23
34 5 5*
87 39 47
3225
2936
2866
29 24 2
11 H I9
86 6 44
3*35
2953
2876
30 49 29
3i 3 7
84 33 54
3246
2970.
2887
18
Sun
Regulus
Spica
W.
E.
E.
37 53 4*
23 33 10
76 53 2
3297
3081
2936
39 *7 57
22 4 37
75 21 28
3306
3111
2946
40 42 2
20 36 41
73 50 7
3316
3146
*954
42 5 55
19 9 27
72 18 57
33*5
3186
2964
'9
Sun
Spica
An tares
W.
E.
E.
49 2 47
64 45 48
no 10 44
3367
3004
3023
50 25 41
63 15 40
108 41
3375
3010
3031
51 48 26
61 45 40
107 n 25
3382
30x7
3038
53 « 3
60 15 49
105 41 59
3388
3024
3043
20
Sun
Venus
Spica
Antares
W.
W.
E.
E.
60 2 20
30 23 28
52 48 25
98 16 29
3417
3609
3051
3069
61 24 17
31 41 52
51 19 ID
96 47 42
3422
3607
3055
3072
62 46 9
33 ° 19
49 50 «
95 18 59
3426
3605
3059
3077
64 7 56
34 18 48
48 21 11
93 50 21
34*9
3604
3062
3080
21
Sun
Venus
Spica
Antares
W.
W,
E.
E.
70 56 2
40 51 37
45 57 5
86 28
3440
3596
3073
3090
72 17 33
42 10 16
39 28 22
84 59 38
3441
3594
3074
3091
73 39 3
43 *8 57
37 59 4i
83 31 18
3441
3591
3074
3092
75 33
44 47 4*
36 31
82 2 58
344i
3588
3073
3091
22
Sun
Venus
Mara
Regulus
Spica
Antares
W.
W.
W.
W.
E.
E.
81 48 17
51 22 10
28 20 30
25 28 29
29 7 22
74 4i 4
343a
3571
34<>3
3175
3067
3084
83 9 57
52 41 16
29 42 43
26 55 8
27 38 32
73 " 35
34*9
3565
3391
3161
3065
3081
84 3i 4i
54 28
31 5 10
28 22 4
26 9 39
71 44 2
34*5
3561
3378
3148
3061
3078
85 53 *9
55 19 45
32 27 51
29 49 15
24 40 41
70 15 26
34*i
3555
3366
3U7
3058
3074
*'
Sun
W.
92 43 55
339i
94 6 22
3384
95 *8 57
3376
96 51 41
3368
Digitized by
Google
8
JUNE, 1882.
XVII.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L.
P.L.
and
Noon.
of
III*.
of
VI h .
of
IX*.
of
Position.
diff.
diff.
diff.
diff.
# »
or*
t n
1 »
Venus
W.
56 39 9
33 52 46
3549
57 58 39 3543
50 18 l6
36 37 13
3535
60 38 2
35*8
Mars
w.
3356
35 13 53
3345
3333
38 O 46
33**
Regulus
w.
31 16 40
08 46 45
3«*5
32 44 i 9
67 17 59
117 48 30
3x15
U 12 II
65 49 8
3x05
35 40 17
3093
An tares
E.
3070
3066
3061
64 20 n
3056
a Aquiltt
E.
119 6 59
3605
3586
116 29 41
3566
115 10 30
3547
SDK
W.
08 14 34
07 19 1
3359
99 37 38
68 39 43
3350
101 52
3339
102 24 18
3330
Venus
w.
3484
3473
70 37
34 6 3
71 21 42
345*
Mars
w.
45 * 4o
3167
46 26 30 3255
47 5i 34
3*44
49 l6 5*
3*3'
Regulus
w.
43 3 57
3040
44 33 20 3029
46 2 57
30x8
47 32 48
3006
An tares
E.
56 53 34
3013
55 *3 So' 3014
107 8 28' 3445
53 53 55;3oo7
52 23 51
*999
a Aquila
E.
108 29 36
3461
105 47 2 34*9
104 25 18
34H
Sun
W.
109 24 34
3*7i
no 49 19 3*58
112 14 19 3246
113 30 34
82 18 34
3*3*
Venus
w.
78 10. 25
339i
79 3* 5* 3377
80 55 35 3363
3349
Mars '
w.
56 27 1
3167
57 53 49 3i53
59 20 55 3139
60 48 17
3125
Regulus
w.
55 5 44
*945
56 37 6 2932
58 8 44I2918
59 40 40
2905
Antares
E.
44 50 47
*953
43 19 35
96 8 50
*943
41 48 11 2934
40 16 35
2924
a Aquila
E.
97 3* l 7
333*
33*4
94 45 6 3309
93 21 5
3296
Sun
W.
120 49 57
3159
122 16 55
3*45
123 44 10 3129
125 11 45
3114
Venus
W.
89 17 39
68 9 35
3*74
90 42 21
3258
92 7 22! 3241
71 8 18' 30x8
93 32 42
3**5
Mars
W.
3049
60 38 47
3034
72 38 9
72 6 56
3001
Regulus
W.
67 24 43
**33
68 58 28
28x8
70 32 32
2803
2788
Antares
E.
32 35 29
86 17 4
1878
31 2 42
84 51 30
2869
29 29 43
2862
27 56 36
2857
a Aquilaa
E.
3230
3217
83 25 41
3*o5
81 59 38
3'93
FomalhautE.
113 52 42
3383
112 30 6
3356
in 6 59
3330
109 43 22
3304
Venus
W.
100 44 18
3x41
102 11 38
3124
103 39 19
83 16 42
3107
105 7 20
3089
Mars
W.
80 12 30
2919
81 44 25
2902
2884
84 49 21
2868
Regulus
W.
80 4 2
*7°9
81 40 30
2693
83 17 20
2676
84 54 32
2660
Spica
W.
26 3 28
2691
27 40 20
2675
29 17 34
2658
30 55 10
2641
a Aquilee
E.
74 4$ 5
3*43
73 '8 48
3135
71 51 21
3x28
70 23 46
3x21
FomalhautE.
102 38
3x86
101 n 34
3164
99 44 42
3143
98 17 25
3123
Regulus
W.
93 5 58
*579
94 45 22
2564
96 25 7
2548
98 5.M-
2532
Mars
W.
92 38 1
2782
94 " 52
2766
95 48 4
2750
97 23 38
*733
Spica
W.
39 8 45
63 4 18
2560
40 48 35
*544
42 28 47
60 8 18
2528
44 9 22
2512
a Aquile
E.
3107
61 36 17
3109
3»3
58 40 24
86 25 33
3x18
FomalhautE.
90 55 8
3032
89 25 35
30x7
87 55 43
3002
2987
aPegasi
E.
109 16 37
2718
107 40 21
2698
106 3 38
2680
104 26 31
2662
Regulus
W.
106 31 16
*455
108 13 32
2441
109 56 8
108 42 36
2427
in 39 4
2413
Mars
W.
105 26 52
2654
107 4 34
2639
2624
no 20 58
2609
Spica
W.
52 37 49
*434
54 20 36
2419
56 3 44
2404
57 47 13
2389
a AquilaB
E.
51 23 31
3186
49 57 5
77 18 55
3210
48 31 8
3239
47 5 45
3*73
Fomalhaut E.
7 8 50 35
2931
2922
75 47 4
29x5
74 15 4
2910
aPegasi
E.
96 14 58
*577
94 35 3i
256X
92 55 42
2546
91 *5 33
2532
Spica
W.
66 29 42
2322
68 15 9
2309
70 55
2297
71 46 59
2286
Antares
W.
21 36 42
*453
2 l I9 I
38 51 56
65 1 43
2424
25 2 2
2398
26 45 40
*374
a AquilaB
E.
40 11 20
3554
3641
37 34 $
3743
36 18 4
61 57 37
3861
FomalhautE.
66 33 57
2904
2909
63 29 36
2916
2925
a Pegasi
E.
82 49 58
2467
81 7 581*456
79 25 43 *44$
77 43 *4
2436
Digitized by
Google
XVIII.
JUNE, 1882,
109
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
PX.
P.L.
P.L.
1
and
Midnight*
of
xv\
of
XVI1P.
of
XXI*.
of
Position.
diff.
diff.
diff*
diff.
1 M
01*
/ #
Q 1 W
*3
Venus
W.
61
57 55
3520
63 T7 57
40 48 30
3512
64 38' 8
3503,
65 58 29
3493
Mars
W.
39 24 32
3312
33oi
42 12 40
3290
43 37 4
41 34 46
3*79
Regulus
w.
s
8 35
3083
38 37 6
61 21 56
3°73
40 5 49
3061
3050
Antares
E.
51 I
50 58
3050
3043
59 5* 37
3037
58 23 10
3030
cl Aquito
E.
113
35*9
112 31 6
3512
in 10 55
3495
109 56 25
3478
*4
Son
W.
103 47 55
33*9
105 11 45
33<>7
106 35 48
3296
108 4
3284
Venus
W.
72 43
3440
74 4 3i
52 8 10
34*9
75 *6 '5
3416
76 48 It
55 28
3404
Mars
W.
50 42 23
3219
3*07
53 34 "
3194
3x80
Regains
W.
49
2 53
2994
50 33 13
2982
52 3 48
2970
53 34 38
46 ai 47
2958
Antares
E.
50 53 37
2989
49 »3 "
2981
47 5; 35
2972
2962
a Aquito
E.
103
3 17
3398
101 40 58
3382
100 18 21
33W
98 55 28
335*
*5
Sum
W.
"5
5 5
3219
116 30 52
3204
117 56 57
3190
119 23 18
3175
Venus
W.
83
41 49
333S
85 5 20
33«9
86 29 9
3305
ll 53 15
3289
Mars
W.
62
1556
3110
63 43 54
3096
65 12 9
3080
66*40 43
3065
Regulus
W.
61
12 52
2891
62 45 23
2877
64 18 11
2863
65 51 18
2849
Antares
E.
38
44 46
2914
37 1* 45
2904
35 40 35
89 7 28
2894
34 8 6
87 4* H
2886
a Aquito
E.
9*
56 49
3282
90 32 16
3269
3*55
3*4*
26
Sun
W.
126
39 3«
58 21
3097
128 7 51
3082
129 36 23
3065
131 5 16
3049
Venus
W.
94
3209
96 2± 20
75 3$ 5i
3x92
97 50 39
3174
99 *7 19
78 40 56
3x58
Mars
w.
74
8 20
2985
2969
77 9 43
2952
*935
Regulus
W.
3
41 40
2772
75 16 44
2756
76 52 9
2741
78 27 55
2725
Antares
E.
23 22
2853
24 50 2
2850
23 16 39
2850
21 43 16
2855
a Aquito
E.
80
33 2l
3182
79 6 50
3172
77 4o 7
3x62
76 13 12
3152
FomalhautE.
108
19 15
3278
106 54 38
3254
105 29 33
3231
104 4
3208
27
Venus
W.
106
35 43
3072
108 4 27
3055
109 33 32
3038
in 2 58
3021
Mars
W.
86
22 21
2851
ll « 43
88 10
2834
89 29 27
89 48 17
2817
91 3 33
91 26 57
2800
Regulus
W.
86
32 s
2644
2628
2611
2596
Spiea
W.
fi
ii 1
2626
34 n *9
67 28 12
2609
35 50 12
66 17
*593
37 *9 17
2576
a Aquito
E.
31x6
3112
3x09
64 3* *9 3"7
FomalhautE.
96
49 43
3x04
95 *i 3 8
3085
93 53 ">
3067
92 24 20
3049
28
Regulus
W.
99
45 43
25x6
101 26 34
2500
103 7 47
M85
104 49 21
2470
Mars
W.
98
59 34
2717
100 35 51
2701
102 12 30
2685
103 49 30
2669
Spica
W.
45
50 19
12 36
*495
47 3i 39
2480
49 13 20
2464
50 55 24
*449
a Aquito
E.
57
3125
55 44 57
3x36
54 17 3 1
81 53 18
3149
52 50 21
3166
FomalhautE.
84
55 4
*974
83 24 19
2962
2950
80 22 3
2940
a Fegasi
E.
102
49
2643
101 11 - 4
2626
99 3 2 45
2610
97 54 3
*593
29
Regulus
W.
"3
22 20
2400
"5 5 55
2386
116 49 50
*374
118 34 2
2362
Mars
W.
in
59 4i
2596
113 38 42
2582
115 18 2
2569
116 57 40
2556
Spica
w.
59
3i 3
*375
61 15 13
2362
62 59 43
2348
64 44 33
41 32 6
*335
a Aquito
E.
45
41 2
3313
44 17 6
3361
4* 54 5
3416
3480
FomalhautE.
72
42 58
2905
71 10 46
2902
69 38 30
2901
68 6 13
2902
a. Pegasi
E.
89
35 4
2517
87 54 i5
2504
86 13 7
2491
84 31 41
*479
30
Spica
W.
3
33 19
2275
75 '9 5 6
2264
77 6 49
2253
78 53 58
2243
Antares
W.
29 52
*353
30 14 34
*334
3i 59 44
2317
33 45 1*
2301
a Aquils3
E.
¥0
4 4
3999
33 52 *3
58 54 17
4161
32 43 20
4351
3i 37 H
4575
FomalhautE.
25 50 *93$
295 X
57 *3 3
2969
55 5* «
'2990
I
a Pegasi
E.
76
30 2427
74 17 35
2419
72 34 27
2412
70 51 10
2405
Digitized by
Googk
no
JULY, 1882.
AT APPARENT NOON.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed,
Thur.
Frid.
Sat.
Sun.
Mon.
Tues,
Wed,
Thur.
Frid.
Sat.
Sun.
Mon.
Tues. 3 2
THE SUN'S
Apparent
Right Ascension,
h m 1
6 41 17-4;
6 45 253^
6 49 33- 06
6 53 40-46
6 57 4755
7 x 543 1
76 b-
7 io 6
7 14 "'S3
St
7 18 17*84
7 22 22 '75
7 26 27*23
7 30 31*27
7 34 34^3
7 3 8 37-91
7 4* 40-49
7 46 42'54
7 50 44*05
7 54 45*01
7 5 8 45*41
8 2 45*24
6 44-49
10 43*14
14 41*20
8 18 38*66
8 22 35*50
8 26 31*74
22
8 30 2
8 34
8 38
8 42
16
8
0*57
8 46 3*76
Var.
in
1 hour.
0-337
0*326
0*3x4
0-302
0*289
0*275
0*261
0*246
0*230
0*213
0*196
0*178
0*158
0-158
0*118
0*096
0*074
0*051
0*028
0*005
9981
9-956
9*931
9*907
9*881
9*856
9*831
9*805
9*779
9*754
9*729
9*704
N.23 6 48*9
*3 2 32
** 57 5i '4j
22 52 46
22 47 17*6
22 41 24*9
22 35 8*s
22 28 28-6
22 21 25*3
Apparent
Declination.
Var.
in
1 hour.
22
22
21
13 5 8*8
6 9*2
57 56-8
21 49 21*8
21 40 24*4
21 31 4'9
21 21 23*3
21 II 20*0
21 o 55*2
20 50 9*1
20 39 1*9
20 27 33*9
20 15 45*4
20 3 36*6
19 51 7*7
19 38 19*0
19 25 10-9
19 11 43*5
18 57 57-1
18 43 52-0
18 29 28*4
18 14 46
N.17 59 4 6# 9 37' 8*
*
10*19
U'ftO
Z2*20
ZJ*20
I4'20
15*19
I6-I7
17*15
Z8*I2
19*09
20*04
20*99
21*93
22*85
23*77
a 4 *6 9
*5*59
26*48
27-36
28*23
29*09
29*94
30-79
31*62
3* '43
33 'H
34-04
34'8*
35* 60
36*36
37-n
Sidereal
Time of
the Semi-
diameter
oassuur
the
Meridian.*
Equation of
Time,
to be
added to
Apparent
Time.
f*77
8-73
8*70
8-65
8-6i
8-56
8-51
8-45
839
8-33
8-27
8-21
8-14
8-o8
8 01
7
7
7*79
7-71
763
7"S5
7*47
7*39
7-31
7'»3
7**4
7*oo
\'V
689
6-8o
6*71
1 6*63
3 31-91
3 43**8
554*37
4 5 'JS
4 15-68
4 25-86
4 3S*7i
4 45*20
4 54*3"'
5 3-06
5 11-39
5 i9**9
26-75
33*74
40-24
46-24
51-72
56-67
1-06
4-89
816
6 10-84
6 12-93
6 1443
6 1533
6 15-62
6 15-31
6 14-38
6 12 " '
6 10*
6 7
84
•69
'93
6 4-57
Var.
in
1 hoar.
0-479
0*468
0-456
0*444
0*431
0*417
0*403
0*388
0*372
0*356
0*338
0-320
0*301
0*281
0*260
0*239
0*217
0*195
0*171
0*148
0*124
0*099
0*075
0*050
0*025
o*ooo
0*026
0*051
0*077
0*102
0*127
0*152
* Mean Time of the Semidiameter passing may be fonnd by subtracting o 1 - 19 from the Sidereal Time.
Digitized by
Google
II.
JULY, 1882.
in
AT MEAN NOON.
t
s
1
I
THE SUN'S
Apparent
Right Aieention.
Apparent
Declination,
Semi-
diameter.*
Equation of
Time,
tobe
iubtracted
Jtom
Mean
Time.
Sidereal Time.
Sat.
Sun.
Mon«
Tues.
Wed.
Thar.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
10
11
12
13
*5
16
:i
19
20
21
22
23
24
li
*7
28
29
jo
3*
32
I ■
16 -8a
h B
641
6 45 24-74
6 49 32-39
6 S3 39-76
6 57 46-82
7 1 53-56
7 5 59*9^
7 10 6-oi
7 14 11 '69
7 18 16-08
7 22 21-87
7 26 26-33
7 30 30-35
7 34 33-89
7 38 36-95
7 42 39-51
7 46 41-55
7 So 43^5
7 54 44-oi
7 58 44-40
8 2 44*22
8 6 43-46
8 10 42-11
8 14 40-17
8 18 37-65
8 22 34*48
8 26 30-72
8 30 26-35
8 34 21-37
8 38 15-78
8 42 9-58
8 46 2-78
O 9 If
N.23 6 49-5
23 2 32-9
22 57 52-2
22 52 47-4
22 47 18-6
22 41 26*0
22 35 9-8
22 28 30-0
22 21 26-8
14 0-4
6 ii-o
22
22
21 57 587
21 49 23*8
I 40 26*6
2
21
31 7-2
21 *I 25*7
21 II 22*5
21 o 57-8
20 50 ii*8
20 39 £'8
20 27 36*9
20 15 48
20 3 39
19 51 II'O
19 38 22*4
19 25 143
19 11 47-0
18 58 0-7
18 43 55-6
18 29 32-1
18 14 50*4
N.17 59 5o-7
5 4§'o
5 46'o
5 4^-0
46-0
46-0
46*0
46-1
46-1
46-1
5 46'i
5 4§-i
5 462
5 46 # a
5 4f 3
5 4* # 3
46-4
46-4
465
46-6
46-7
46-7
46-8
46-9
47-0
47-1
47-2
47'3
47'4
47-6
47*7
47-8
m •
3 31*88
3 43 '»5
3 S4'34
5 I 5
15-65
25-83
35-67
45*17
54-29
3-03
11-36
19-26
26-72
33-71
40-21
5 46-22
5 51-70
5 56-65
6
6 4-88
6 8-14
1-04
88
6 10-83
6 12-92
6 14*42
15-32
15-62
15-31
14-38
12-85
10-70
795
h m 1
6 37 4494
6 41 41*50
6 45 38-05
6 49 3461
6 53 31-17
6 57 27-73
7 1 24-28
7 5 20-84
7 9 17-40
7 13 i3'95
7 17 10-51
7 21 7-07
7 25 3-62
7 29 0-18
7 3* 5*5-74
7 3 6 53 '*9
7 4° 49-85
7 44 464'
7 48 4a'96
7 5*5
7 5» 39/5*
36-08
o 32-63
4 *9'i9
8 25-75
■5 47*9
6 4-59
8 12 22*30
8 16 1886
8 20 15-41
8 24 n-97
8 28 8-52
8 32 5-08
8 36 1-64
8 39 58-19
Digitized by
Google
112
JULY, 1 88a.
in.
MEAN TIME.
1
i
O
S*
Q
THE SUN'S
Apparent
Logarithm
of the
Radios
Vector
of the Earth.
Transit
of the
First Point
of
Aries.
THE MOON'S
Longitude.
Latitude.
Semidiam«ter.
Horizontal Parallax.
Noon.
Noon.
Noon.
Nam.
Midnight
Noon.
Midnight.
I
a
•3
/ »
99 29 1*2
100 26 12 "0
101 23 22*9
N.O'13
0*21
0'26
0*0071864
•007189 1
•0071904
h m a
17 19 24-31
17 15 28*40
17 II 32*49
1 »
16 13*2
l6 20*2
16 23*8
t » / »
16 17*159 25-7
16 22-559 51*3
16 24*360 4-5
1 »
59 40-0
60 6-3
4
I
102 20 33*9
1*03 17 45-1
104 14 56-7
0-28
0*26
0'22
0*0071902
•0071884
'0071850
17 7 36*58
17 3 40*67
16 59 44*76
l6 24'0
l6 21*1
l6 I5-8
16 22*960 s*i
16 18-759 54-5
16 12-459 35'o
60 i- 1
59 45'7
59 22-7
I
9
105 12 8*7
106 9 21*1
107 6 34*o
0*14
N.C03
S.o*io
0*0071798
•0071726
•0071033
16 55 48-85
16 51 52*94
16 47 57*02
16 8*7
l6 O'D
15 52- 1
16 48
15 56-4
IS 47'7
59 9*2
58 30*6
58 81
58 54*7
58 24-0
57 52' 1
10
ii
12
108 3 47-5
109 1 i*5
109 58 i6'o
0*23
0*36
0-48
0*0071517
•0071378
•0071214
16 44 i'ii
16 40 5*20
16 36 9*29
15 43'3
15 34-6
IS 20' I
15 390
15 30-4
15 22*0
57 36-1
57 4*2
56 33*1
57 20*1
56 486
56 180
*3
»4
'5
no 55 31-0
in 52 46*5
112 50 2*3
0-59
0*69
0*70
0*0071024
•0070809
•0070569
16 32 13*38
16 28 17*47
16 24 21*56
15 17-9
15 io*i
15 29
15 HO
IS 64
14 59-6
56 3*1
55 34/5
55 80
55 48-5
55 20-9
54 55 9
16
Is
113 47 18-5
114 44 35-0
115 41 51*8
0*82
0-85
0-85
0*0070303
•0070012
•0069695
16 20 25*65
16 16 29*74
16 12 33*83
14 56*6
•4 5i - 3
14 47-6
14 53-8
14 49*3
14 464
54 44*7
54 255
54 «*9
54 34*5
54 18*0
54 7*6
•9
20
21
116 39 9*o
117 30 20*4
118 33 44-2
0*83
0*79
0*72
0*0069354
•0068990
•0068604
16 8 37*92
16 4 42*01
16 46*10
14 45*8
14 46*1
14 490
14 457
14 473
14 51-4
54 5*2
54 6*5
54 170
54 4'8
54 10-6
54 258
22
23
*4
119 31 2*J
120 28 20*8
121 25 39-8
0*64
0-53
0*42
0*0068196
•0067768
•0067321
15 56 50*19
15 52 54-27
15 48 58*36
»4 54*5
»S 2*7
'5 »3'5
14 583
15 7 -8
IS »9*7
54 37" 1
55 7*2
55 467
54 51*0
55 25-8
56 9-5
*5
26
27
122 22 59*1
123 20 19*0
124 17 39-4
0*30
0*17
S.o*o5
0*0066855
•0066372
•0065874
15 45 2*45
15 41 654
15 37 10*63
IS 26*4
is 409
IS 55'9
IS 33'5
15 48 4
16 33
56 34* 1
57 27*2
58 22*3
57 o-i
57 547
58 49' 3
28
29
30
3i
125 15 0*3
126 12 21*9
127 9 44-2
128 7 7*3
N.o*o7
0*10
0*22
0-25
0*0065562
•0064837
-0064299
•0063749
15 33 14*72
15 29 18*81
15 25 22*90
15 21 26*99
16 io*4
l6 22*7
16 31-8
16 36*6
16 16*9
16 27*7
16 34-8
16 37*2
59 i5-i
60 0*5
60 33*7
60 51*2
59 39*i
60 18-9
60 44*6
60 53*5
32
129 4 31-4
N.o'25
9*0063188
15 17 31*08
16 36-7
16 35-0
60 51-5
60 45*4
Digitized by "
IV.
JULY, 1882.
MEAN TIME.
Hi
1
a
THE MOON'S
Longitude.
Noon.
Midnight,
Latitude.
Noon.
Midnight.
Age.
Noon.
Meridian Passage.
Upper.
Lower.
IO
II
12
'3
14
15
16
l l
18
19
20
21
22
*3
24
*5
26
27
28
29
30
3i
32
o / w
282 44 34-
297 11 56-
3" 49 33*5
326 30 16*3
341 7 12-3
355 34 4* "6
9 48 sr 7
23 48 0*3
37 3 1 25*9
50 59 51 •
64 14 21'
77 16 4-2
90 5 54*
102 44 32*
115 12 27*4
127 30 IO'I
139 38 29*6
151 38 45-1
163 32 57-8
175 23 54
187 15 10*3
199 11 1
211 -16 15*6
223 36 0*2
236 15 16-4
249 18 29-2
262 48 48*3
276 47 19-7
29I 12 21'6
3°5 59 o*4
320 59 28*5
336 4 6*7
o 1 »
289 56 33-3
304 29 54-6
319 9 58-7
333 49 36-2
348 22 25*2
2 43 39-4
16 50 26*2
30 41 39-0
44 *7 ^7'3
N.3 33 36-4
4 " 37*8
4 55 7'7
5 8 *5
5 *
4 35 4i-i
25-3
37-8
57 35 46
o 46 44
3 42 25*6
r
96 26 35*9
108 59 48*7
121 22 32*8
133 35 26-2
H5 39 3* '4
157 36 275
169 28 38*4
181 19 15*0
193 12 13-8
205 12 8*9
217 23 59*9
229 52 54-1
242 43 39 o
256 o 7*9
269 44 34*5
283 56 45 -5
298 33 24-5
313 28 5*6
328 31 54-3
343 34 5* '5
3 53 1-2
* 57 5'3
1 5i 54*4
N.o 41 39*3
S. o 29 34* 1
1 37 58-3
2 40 11*3
3 33 252
4 IS 3^4
4 45 a # 3
5 1 II'O
5 3 46-5
4 53 6-9
4 29 5*'
3 55 ©•
3 9 41-6
2 15 19*8
1 13 38*9
S. o 6 50*2
N. 1 2 18-2
2 10 I2'8
3 12 36*0
4 4 40'9
4 4i 47'4
5 o ii*6
N.4 57 55*5
o / *
N. 3 59 57'4
441 9-1
5 4 16-4
S 7 3i'i
4 5o 55*8
4 16 14-7
3 26 28*2
2 25 23*5
1 17 9-3
N.o s 55-2
S. 1 4 20*6
2 10 2*5
3 8 4*7
3 55 58-2
4 3' 55*-
4 54 48*4
5 4 9"9
5 o 4*o
4 43 o*9
4 *3 49*9
3 33 34' 7
2 43 32-6
1 45 16-8
S. o 40 43-6
27 38
?o 20
N.o 2
1 30 39 m
2 42 23*4
3 4o 13*9
4 25 22*4
4 53 3<>' «
5 * 4*"o
N.4 49 i'6
d
17-7
i8«7
•9*7
20*7
21*7
22*7
2-3-7
24-7
25-7
26-7
27-7
28*7
0'2
1*2
2'2
3-2
4'«
5*
62
K
9-2
10*2
11-2
12*2
13*2
I4'2
15*2
l6*2
I7'2
h m
12 45 -9
13 42*
14 3*-
i5 3i*4
ID 23
17 I4'6
18 6-o
18 58-2
19 51-3
20 45*2
21 39*2
22 -32*3
23 23-7
O 12*9
h m
16*9
1 14-6
2 io- 8j
3 4'9
3 57'4
4 48-9!
5 4o-2|
6 32*0,
7 H'6,
8 18-2!
9 ""*!
5 '9
10
10 58-3!
11 48-6;
12 36'6.|
59*6 13 22*1
1 44
2 26*8
3 8*
3 49'
4 3 I#
5 H-
6 o*o
6 48
7 39 # 4
8 33
9 30
10 29*3
11 27*6
12 24*9
13 20*7
14 15*0
H 5-6
H 47'7J
15 29-1
16 10*5'
16 52*9
17 37'°,
18 23*6
19 1^*3!
20
21
22
6-3'
2-2,
o*o
2 5 8*5
3 56*4
* *
o 53*0
1 48*0
(nautical almanac, 1882.)
H4
JULY, 1882.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Right
Attention.
Var.
in io».
Declination.
Var.
ini©-.
Satubday I.
9
10
II
12
J 3
*S
16
l l
18
*9
20
21
22
23
o
1
2
3
4
?
9
10
11
12
13
H
IS
16
l l
18
*9
20
21
22
23
24
1 27
356
626
h m •
I8S3S7
18 5627
185857
'9
19
19
19 856
19 II 25
i9 J 3 54
19 16 24
19 18 53
1921 22
192351
19 20 20
19 2848
I 9 31 17
I93546
19 38 14
I93842
1941 10
I94338
1946 6
194834
19 51 1
195328
19 55 56
195823
20 049
20 3 16
20 543
20 8 9
20 1035
2013 1
20 15 27
20 1753
2020 18
2022 44
2025 9
2027 34
20 29 59
20 32 23
20 34 48
2037 12
20 39 36
2042 o
204423
20 46 47
2049 10
205133
24-999 S,
*4*977
24-964
24-951
24-936
24-922
24*906
24-889
24-872
*4'855
24-837
24-817
24-798
24-778
M'757
H'735
24-713
24*690
24*667
24-643
24*618
*4'594
24*569
3UNDAY
*4'543
a4-5i7
24-490
24-463
24-436
24-408
24*381
*4'35»
24-323
24-295
24*265
24*236
24*207
24-177
24-147
24-117
24-086
24-055
24-025
23*994
13-963
23*932
4023*901
71 23-870
84123*839
37
33
23
05
80
46
03
5*
90
'9
37
45
4i
25
98
58
06
40
61
68
61
39
03
5*
86
04
06
92
62
15
52
72
00
28
78
II
26
23
02
63
05
29
35
22
90
91752-3
912 9-3
9 618-5
9 019-9
» 54 13 5
84759-4
84137-6
835 8-i
82831-1
821 46-5
81454-4
8 7 54'9
8 048
7 53 33
74612
7 38 43
73i 7
72324-4
71534-2
7 7 37-i
65933-0
65I 22*1
643 4-3
63439-7
2.
626 8-5
6 17 30-7
6 846*3
5 59 55-5
55058-2
54154-6
5 3*44-7
5 23 28-7
514 6-5
5 438-*
4 55 4'o
445 23'9
4 35 37-9
425462
41548-9
4 545'9
3 55 37*5
34523-6
3 35 4'4
32439-9
3 14 10-2
3 3 35-4
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242 io*9
2 31 21-3
#
56-51
57*82
59-12
60*42
61-71
62*99
64-27
65-54
66-80
68* 06
69*30
70*53
71*77
72*98
74-19
75 '39
76-58
77'77
78*94
80*10
81*25
82-39
83-53
84*65
85*75
86-85
87-93
89*01
90*08
91-13
92*16
93-18
94-21
95-21
96-19
97' »7
98*14
99*08
IOO '02
100-95
ioi-86
102*76
103-64
104-52
105-38
Io6'22
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107-86
108*67
Right
Ascension.
Var.
in 10".
Declination.
Var.
te so*.
?:
h n 1
2051 3
20 53 5
20 56 19
20 58 42
1 4
3 26
548
8 10
1032
1253
1514-
17 35
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3618
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s.
a
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23-746
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23*468
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23*409
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23*321
23*292
23*263
23*234
23*206
23-178
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s.
Tuesday
47 53
50 12
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57 7
59*5
M3
618
836
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13 10
1527
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20 i'
22 17'
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31 22
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62
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a
57
42
14
72
17
50
70
77
73
57
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23*069
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23*016
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22*965
22*939
22-915
22*891
22-867
22 * 843
22*820
22*798
22*775
22*753
22*732
22*711
22-689
22*669
22*650
22*631
22-612
22-593
22*575
12 31 21
12 20 26
12 27
1 1 58 24
11 47 16
II 36 3
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II 13 25
II 2 O
10 50 30
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10 27 19
10 15 38
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8 52 10
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109-45
110-22
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in-73
112*47
113*18
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115-25
115-91
116*55
117*18
117-79
118*40
118*99
119-56
120*11
120*66
121*19
121-70
I22'20
122-69
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0125*67]
9 126*03
6 126*39
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27*93
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128*45
128-68
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29-31
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I I
129*
129-
129'
129'
30-
[130*
o
VI.
JULY, 1881.
"5
MEAN TIME.
•
THE MOON'S RIGHT ASCENSION AND DECLINATION.
t
a
Rtgkt
Awnwion.
fan*-.
^ ... .,__ Tar.
f! BSght
53 AaoMBam
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2
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2
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9
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14
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H
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112*07
15
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16
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16
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18
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19
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22-328
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108-69
20
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20
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21
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107-27
22
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22
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1 21 24-81
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23
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N. 21439*3
128*98
23
22*512
105*82
Thubsd
AT 6.
Satxtbd
AT 8.
23 3628*41
22*293
N. 2 27 32-6
128-77
12339-92
22-525
N.i 1 59 1*4
12 929-6
105*08
I
233842*15
22*288
2 40 24 - 6
128-55
I
125 55"
128 10*38
22-538
104-31
2
234055*86
22*282
25315*2
3 6 4*4
128*32
2
22-552
12 1953*1
103*54
3
2343 9-53
22-277
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3
13025-74
I 3241-18
22-567
12 30 12*1
102-78
4
234523-18
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3 18 52-1
127*82
4
22*580
124026*5
102*00
S
2347 36-81
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33138-2
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i
13456-70
22-594
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6
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1 37 12*31
22*608
13 040*9
100 '40
1
23 52 4*02
22-265
357 5'3
126-97
1
1 3928-00
22*623
13 1040*9
99 '60
23 54 17-60
22*262
4 94-5-2
126-66
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22*638
13 2036*1
98-78
9
23 56 31*16
22*260
422 25*2
126-33
9
1435965
146 15*60
22*652
13 3026-3
97*95
10
235844*72
22*260
435 22
126*00
10
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97-ix
11
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11
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12
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14
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15520/33
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16
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:i
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22*265
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l l
2 2 9*83
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16 33*25
1846*86
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61439*5
122*92
18
2 420*52
22*789
H55 7'*
90*12
19
22*271
62655-7
122*48
19
2 643*30
22*804
15 4 5' 1
89-19
20
021 0*50
22-275
639 93
122-03
20
2 9 0*17
22*819
151257-5
88*27
21
023 14*16
22*278
65I 20*I
121*58
21
2 11 17-13
22*835
152144-4
87*35
22
02527*84
22-282
7 328-2
121*11
22
21334*19
22*851
153025-7
86*42
23
27 4i*55i22-2t7
~ 7I5 33-4
120*62
23
21551*34
22*867
*5 39 >*4
«5 '47
24
29 55*29 l ai-i93
N. 7*735' 6
120*12
24
218 8*59
22*883
N.I5 47 3I-3
84*5?
1 a
n6
JULY, 1882.
VII.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
I
a
Right
Ascension.
Var.
in w".
Declination.
Var.
in io*».
j
Right
Ascension.
Vsr.
inio».
Declination.
Vsr.
in io".
Sunday 9.
Tuesday ii.
h m • 1
1 »
h m s s
o#* r
2 18 8*59
22*883
N.i5473i*3
84*51
O
4 9*4*4*
*3'353
N.203I 13*1
31*80
I
2 2025*93
22-898
15 55 55*5
83*55
I
4 11 4454
23*352
20 3420-3
30-61
2
2 2243*36
225 o-88
22-913
16 413*9
82-58
2
414 4-65
23-351
20 3720*4
29*42
3
22*928
16 12 26*5
8i-6i
3
41624*75
41844*85
23-350
2040 13*3
28*22
4
2 27 18*50
22-943
162033*2
80*63
4
23*348
2042 59*0
27-02
5
2 29 36*20
22-958
1628 34*0
79*63
5
421 4*93
*3*345
204537*5
2048 8*8
25*82
6
2 31 54*00
22-973
163628-8
78*63
6
42324*99
23-342
24*62
1
23411*88
22-988
1644 17*6
77*63
1
42545*04
*3*339
205033*0
23-43
2 3629*86
23*003
1652 0*4
76*62
428 5*06
»3*334
2052 50*0
22-23
9
23847*92
23-018
• 165937*1
75* 60
9
43025*05
23*33©
205459-8
21*02
10
241 6*07
23-033
17 7 76
74*58
10
43245*02
*3*3*5
2057 2*3
I9'82
11
24324*51
24542*63
23-047
17 1432*0
73*55
11
4 35 4*95
23-318
205857*7
1863
12
23*061
1721 50*2
72*51
12
43724*84
23-312
21 045*9
1743
*3
248 1*04
23-075
I729 2*1
71*46
l i
43944*69
23-305
21 226*9
l6'22
14
25010*53
2 52 38*10
23*088
1736 7*7
70*41
14
44* 4-50
23-297
21 4 o*6
I5-O2
l S
23-102
1743 7*0
69*36
15
44424*26
44643*96
23-288
21 527*2
I383
16
25456*75
23-115
1750 0*0
68-29
16
23-279
21 040-6
12*63
'7
25715*48
23*128
175646-5
18 326*6
67*22
:\
4 49 3' 61
13-270
21 7588
ii*43
18
25934*29
23-142
66*14
451 23*20
23-259
21 9 3*8
10*24
19
3 i53'iS
23-153
l8 10 0*2
65-07
'9
45342*72
23-248
21 10 1*7
9-05
20
3 412*13
3 031*16
23-165
l8 1627*4
63-98
20
456 2*18
23-238
21 1052*4
7*85
21
23*177
l8 2248*0
62*88
21
45821*57
5 040*88
»3*«5
21 11 35*9
6*66
22
3 850*26
23-189
1829 2*0
61*78
22
23*212
21 12 12*3
5*47
23
311 9*43
23*201
N.1835 9*4
60 *68
23
5 3 0*12
23*199
N.21 1241*6
4*28
Moisr da
T IO.
Wedhesi
IAY 12.
3 13 28*67
23*212
N.184I 10*2
59*58
5 5i9'*7
5 7 3»'34
23*185
N.2i 13 3*7
21 13 15'7
3-09
1
31547*97
23*223
1847 4*4
58*47
I
23-171
191
2
318 7-34
23*233
185251*8
57*35
2
5 9 57'3*
23*156
21 13 26*6
o*73
3
3 2026*76
*3**43
185832*6
56*23
3
5 12 16*21
23*140
21 13 27*4
0*46
4
3 2246*25
23*252
19 4 6*6
55' 10
4
51435*00
23*123
21 13 21*1
1*64
s
325 5*70
32725*38
23*261
19 9338
53-97
5-
51653*69
23*107
21 13 7*7
2*82
6
23-270
191454*2
52-83
6
5 19 12*28
23*089
21 1247*3
3* 9 8
1
32945*03
23*278
1920 7*8
51-69
7
5 21 30*76
23-071
21 12 19*9
5**5
332 4*72
23*287
192514*5
5o'55
8
52349*13
526 7*38
23*052
211145*5
6*32
9
3 34*4*47
33644*25
23*294
193014*4
49'4i
9
23*033
21 11 4*i
7*48
10
23301
19 35 7'4
48*25
10
52825*52
23-013
21 10 15*7
8*64
11
3 39 4 # o8
23-308
19 39 53-4
47-09
11
5 30 43-54
22*993
21 920*4
21 8181
9*80
12
3412395
34343*86
23*315
194432*5
45*93
12
5 33 1 '43
22*972
zo -96
13
23*321
1949 4*6
44*77
13
53519*20
22*950
21 7 8-9
12*10
14
346 3*80
23*326
1953298
43' 61
14
53736*83
22*928
21 552*9
13*24
IS
34823*77
23*331
I9 57 47-9
4»* 43
15
5 39 54 # 33
22*906
21 430*0
14*39
16
35043*77
*3*335
20 1 59*0
41*26
16
542 11-70 22-883
21 3 0*2
15*53
II
3 53 379
*3*339
20 6 3*0
40*08
•,i
54428*92 22*858
21 I 23*7
16-65
3 55*3-84
»3*343
20 10 0*0
38*92
54646*00 22-834
205940*4
17-78
19
3 57 43-9'
»3"346
20 13 50*0
37*73
19
5 49 2*9322-809
205750-3
18-92
20
4 3*90
4 2 24*08
23-348
20 17 32*8
36*55
20
551 19*71 22*784
5 53 3 6 '34"'758
55552*81 22-732
205553*4
20-03
21
23*350
2021 8*6
35*37
21
205349*9
21*14
22
4 444-19
23-352
2024 37*2
202758*7
34-18
22
205139*7
22*25
*3
4 7 4'3<>
23*353
32-99
23
558 9*1222*705
2049 22*9
^.204659*5
»3*35
*4
4 9*4*4*
*3*353
N.2031 13*1
31-80
*4
6 025*27 122-678
»4*45
o
VIII.
JULY, 1882.
11
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
8
u
Right
Ascension.
Var.
inio».
Declination.
Var.
in io«.
u
9
O
a
Right
Ascension.
Var.
in io«.
Declination.
Var.
inio-.
Thursday 13.
Saturday 15.
h m ■ s
/ *
h m ■ •
1 19 *
6 025*27
22*678
^204659*5
*4*45
74525*21
20*979
N.i6 5 4 5 9 *i
69*44
I
6 241*25
22*650
2044 295
*5*55
I
74730-97
20-940
1648 0'2
70*18
2
6 4 57'°7
22*622
2041 52*9
26*64
2
74936*49
20-900
164056*9
70*92
3
6 712*71
22-593
20 39 9*8
27*72
3
75141-77
75346-83
20*862
163349*1
1626 37*0
71*66
4
6 928*18
22*563
20 36 20*2
28*80
4
20*823
72*38
s
6 ii43'47
"'534
20 33 24*2
29*87
5
7555165
20-783
l6 19 20*5
73*11
6
61358-59
6 10 13*52
22*504
20 3021*8
30*93
6
75756*23
20*745
l6 II 59-7
73-81
1
™*473
20 27 13*0
32-00
1
8 0-59
20-707
16 434*8
74*51
6 1828*27
22-442
2023 57*8
33-06
8 2 4*71
20*667
'557 5-6
75-21
9
62042*83
22*4x1
20 20 36*3
2017 8*6
34*10
9
8 4 8*59
20*628
i5 49 3*"3
75*88
10
622 57*20
22-379
35-14
10
8 612-25
8 815*68
8 1018*87
20*591
154155-0
76*56
11
6 25 11 '38
22-347
20 13 34-6
36*18
11
20*552
1534156
15 2628*2
77*23
12
62725*37
22-315
20 954*4
20 6 8*i
3721
12
20513
77-89
'3
6 2939*16
22*282
38-23
13
8 1221*84
20*475
15.1838*9
7«-54
H
6315275
22*248
20 2 15-6
39*«5
14
81424*57
20-437
151045*7
79*18
>5
634 6*14
22*215
195817*1
40*26
15
8 1627*08
20*399
15 248*7
79*82
16
63619*33
22*181
195412*5
41*27
16
8 1829*36
20*362
145447-9
144643*3
8o-45
17
6 38 3231
22*146
1950 1*9
42*26
:;
8 2031-42
20*324
81*07
18
64045*08
22*1x2
19 45 45*4
43**4
8 22 33*25
20*287
143835-1
8i-68
'9
64257*65
22*078
1941 23*0
44' *3
19
82434*86
20*250
143023*2
82*28
20
645 IO'Ol
22*042
193654-7
45-21
20
8 2636*25
20*213
1422 7*7
14 i3 48'7
82*88
21
64722*15
22'006
1932 20*5
46*18
21
828 37*41
83038*36
20*176
83-47
22
649 34*08
2X'970
192740-6
47"*3
22
20*139
14 526*1
84-04
23
65145*79
21-934
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48-08
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8 32 39*08
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N.I357 0*2
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y 16.
65357-29
21*898
N.1918 3*649-03
8 36 3988
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N.I3 48 30-8
85-18
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2 1 • 862
19 13 6*6 49 # 97
19 8 4*050-90
I
20*031
133958*1
85-73
2
658 19*63
21*825
2
83839-06
840 39' 82
19*995
13 31 22*1
86*27
3
7 °3 0# 47
21-788
19 255*8 51-83
3
19*959,
132242*9
86*8i
4
7 241*08
21*750
i8 5742-i|5**75
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84239-47
19*924
13 14 0*4
87*34
5
7 4 5i # 47
21-713
18 52 22*8:53*66
5
84438-91
19*889
13 514*8
12 56 26*1
87-86
6
7 7 I#6 3
21*675
184658-2
54*55
6
84638*14
19*854
88*37
I
7 9 "'57
21-638
184128*2,55-45
1
84837*16
19*820
124734-4
88*88
7 11 21*29
21-600
18 3552*8
5*5*33
85035*98
19787
12 38 39*6
89*38
9
71330*77
21-562
l8 30 12*2
57*21
9
8 52 34*60
I9-753
12 2941*8
89-87
10
71540*03
21-523
l8 2426*3
58*08
10
85433*01
19*718
12 2041*2
90-34
71749*05
21-485
I8I8 35-2
58-95
11
8 56 31*22
19-685
12 11 37*7
90*82
71957*85
2i*447
l8 1238*9
59*81
12
8 58 29-23
19*653
12 231*3
91*29
722 6*41
21*408
l8 637*5
60*65
13
9 027*05
19*620
II 53 22*2
91-75
72414*74
21-369
l8 03I-I
61-48
H
9 224*67
19*588
11 44 10*3
92*20
72622*84
21-331
I7 54 19-7
62*32
15
9 422*10
9 619*33
19*555
113455*8
92*64
16
728 30*71
21*292
1748 32
63*15
16
19*523
11 25 38*6
93-o8
:i
73038*34
*i**53
174141*9
63*96
l l
9 8 16*38
19*492
11 16 188
93*51
7 3* 45*74
21*213
173515*7
172844-7
64*77
18
9 10 13*24
19*462
11 656*5
93*93
l 9
73452*90
73659*83
21-174
65*57
•9
9 12 9*92
914 6*41
19*431
10 57 3 X '6
1048 4*3
10 38 34-6
94*35
20
21*136
1722 8*9
66 36
20
19*400
94*75
21
7 39 6*53
21-097
171528*4
67*13
21
9 16 2*72
19*370
95'H
22
741 12*99
21*058
17 843*3
67*91
22
91758*85
19*341
1029 2 *6
95'53
2 3
743 I 9* 2i
21*0X8
17 X53-5
68*68
23
9 195481
19-312
10 1928*2
95* 9»
•H
74525*21
ao'979
N.i6 54 59*i
69-44
*4
92150*59
19*283
N.io 951*5
96*30
Digitized by
Google
Ii8
JULY, 1882.
IX.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Eight
Ascension.
Var.
tnio".
Declination.
Var.
in 10-.
Right
Ascension.
Var.
in 10*.
Declination.
Var.
in io*.
MOHDJLY
m 8 8
21 50*59
2346-20
2541*64
27 36*91
2932*01
31 26*95
17.
22 10
33 21*74
35 16*36
3710*83
39 5-H
4059*30
42 53 32
4447*19
46 40 * 92
4834*50
5027*95
52 21*26
54 14*44
56 7'49
58 0*41
5953*20
145*88
3 38-43
19-283 N.
19*254
19-216
19-198
19*170
19*144
19*118
19-091
19*065
19-039
19-015
18-991
18*967
18-943
18*919
18-897
18*874
18*852
18*831
18*809
18-789
18*769
18-749
23 10 5 30*8718*730
N.
Tuesday
723*1918*711^
915*40
11 7*51
1259-51
1451*40
1643*20
18 34*90
2026-50
22 l8'02
24 9*44
26 0-78
27 52*04
2943*21
3134*31
3325*34
35 16*2
3 Z V 1
3858-00
40 48 • 76
42 39-46
4430*11
46 20*70
48 1 1 • 24
50 1 -74
5152*19
18-693
18-676
f«*6j8
18-641
18*625
18-608
18*593
18*578
18-563
18-550
18-536
18523
18-511
8-498
18*487
I8-47-5
18-465
18*455
18*446
18*437
18-428
18-420
18-413
18-405 N,
10 951*
10 OI2'
9503I*
94048
931 2
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9 11 26'
9 134*
8 51 41
841 46-
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8 21 50*
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97 # 3»
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98-41
98-73
99-04
99-36
99-67
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100*26
100-53
100-81
iox-08
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ioi*6o
101*84
102*09
102-33
102*56
102*78
102-99
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288
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103
103
103
103
104*
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104'
104*
105
105
105'
105
105
105
105
105
105
106
106
106
106
106
40
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33
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20
21
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444.40
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12 5-18
13 55*35
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1925*86
21 16*04
23 6*23
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28 36-89
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32 17-43
34 7*74
Wedhesdjly 19.
8 O /
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18*388
18383
18-378
18-374
18*371
18*368
18-366
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18*363
18-362
18-362
18*362
18*363
18-364
18-366
18-368
18-372
i8*375
18*378
18-383
18-388
N.
Thursday
3558*09
37 48-47
393889
41 29- 35
43 19 '86
45 10*42
47 1*02
4851*69
5042*41
5233-19
5424*03
561495
58 593
5956-99
2 148*12
2 339*34
2 5 3 o6 4
2
2
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2 11 5*08
2 12 56*75
2 1448*52
2 1640*40
i8*394S,
18*400
18-407
18-414
18*422
18-430
18-439
18-449
8*458
18*468
18*480
18-492
18*503
18-516
18-529
18-543
18*558
18-573
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18-603
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18-655
2 l8 32*38 18*673
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106-43
106-46
106-49
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106-57
106*58
106 '59
106-58
106*58
106-57
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106-53
106-50
106-47
106-43
106-39
106 • 34
106*28
106*21
106-14
106*07
4105*99
1 105-90
2 105*81
8 105-72
8' 105* 61
105-50
105-39
105-27
105-14
105-01
104*87
104-72
104-57
104*42
104*26
104-09
103*92
103*74
103-56
103-37
103-17
102-97
102*76
102*54
102*32
Digitized by
Google
X.
JULY, 188a.
119
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
fj
Right
Ascension.
in io".
Declination.
Var.
inxo-.
T
Right
Aiceniion.
Var.
into*-".
Declination.
Var.
inxo".
Friday 21.
Sunday 23.
h m 8 •
1 » *
h m ■ •
/ n *
O
12 2024*47
18*69*
S. 62835-3
102*32
"3 53 «S»3
20*189
S. 14 2 11 '4
84*04
I
12 22 l6'68
18*711
63848-5
102*09
I
135517-09
1357 18*61
20*232
14 1034*0
83*48
2
12 24 9*oo
18*730
649 0*4
101-87
2
20-276
141853*2
82*92
3
12 26 i*44
18*750
659 10-9
101*63
3
135920-40
20*319
1427 9*0
82*35
4
12 27 54*00
12 2946*69
18*771
7 9'9'9
101-38
4
14 122*44
20*362
143521-4
8i-77
5
18-793
719274
101*13
s
14 324-74
20*407
144330-2
81*18
6
12 31 3951
18-815
72933-5
100-87
6
14 527-32
20*452
I45I35-5
80*58
5
123332*47
18837
7 39 37*9
74940-8
100 * 61
7
14 730*16
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145937-1
79*97
12352556
12 37 18*78
18-859
100-34
8
14 9 33*7
14 11 36*66
20*542
15 735'i
79*36
9
18- 88a
75942*0
8 941*6
100-07
9
20*588
1515294
78*73
10
12 39 12*15
18-907
99 78
10
141340*32
20*633
152319*9
15 31 6-6
78*10
11
12 41 5*67
18-932
81939*4
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11
141544*25
141748*47
20*679
77*46
12
124259*33
18-957
82935*5
99-20
12
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153849-4
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l i
124453*15
18-982
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98-90
'3
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154628*3
76*16
H
124647*12
19-008
84922*3
98-59
H
142157*75
20*820
15 54 3'3
16 134*3
75-5o
15
124841-25
19-035
85912*9
98-27
15
1424 2*81
20-868
74*82
16
125035*54
19' 062
9 2 I' 6
91848*3
97 '95
16
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16 9 1*1
16 10 23*9
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12 5229*99
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97-62
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20*964
73*45
18
12 5424*61
19-118
928 33*1
97-30
143019*73
21-013
162342*5
72*75
*9
1256 19*40
19-146
93815*9
96*96
19
143225*95
21*061
163056*9
72*04
20
12 58 14*36
19-176
94756*6
96*61
20
143432*46
21*110
1638 7-0
71-32
21
13 9*51
19*206
95735*2
96*26
21
143630*27
143846*37
21*159
164512-7
70*59
22
13 2 4-83
19-235
10 711*7
95-89
22
21 '208
1652 14-1
6987
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13 4 0*33
19-265
S.10 1645*9
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IT 22.
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r 24.
13 5 56*01
19-297
S.10 2618*0
95* 16
O
1443 i*47
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S.17 6 3-5
68-36
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13 751*89
19-329
103547-8
94*78
I
1445 9 '47
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171251-4
67*60
2
13 947-96
19*361
104515*3
94*38
2
1447*7*77
21*408
171934-7
1726 13-4
66*83
3
13 11 44*22
19-393
105440*4
93 '99
3
144926*37
21*459
66*05
4
13 1340*68
19-427
11 4 3*2
93*59
4
145135*28
21*510
173247-3
65*26
5
131537-34
19-461
11 13 23*5
93'»8
5
14 53 44*49
21*561
173916*5
64*47
6
131734*21
19-495
11 2241*4
92-77
6
145554*01
21*612
174540-9
63-66
■
13 193128
19-529
11 31 56*7
92*34
1
1458 383
15 013*96
21*663
1752 0*4
62-84
13 21 28*56
19-565
1141 9*5
91*92
21*713
175815*0
18 424-5
62*01
9
13 23 26*06
19*601
11 50 19*7
91-48
9
15 224-39
21*765
61*17
10
13 25 2377
19*636
115927*3
91-04
10
15 4 35-14
15 646*19
21*817
18 10 29*1
60*33
11
132721*69
19*673
12 8 32*2 90-59
11
21-868
18 1628*5
59*48
a
132919*84
19-710
12 17 34*4 90'*3
12
15 8 57*55
21919
1822 22*8
58-62
»3
13 31 l8'2I
19-748
12 26 33*8
89-67
13
15 II 9*22
21-971
182811*9
37'74
*4
13 33 16*81
19-785
123530*4
89-19
H
15 13 21*20
22*023
183355*7
56*86
*§
13351563
19-823
124424*1
88-71
*s
15*5 33*49
15 1746*09
22*074
183934*2
55-97
16
133714*69
133913*98
19-862
125314*9
13 2 2*8
88*23
16
22*126
1845 7*3
55-07
1
19*902
«7-73
:?
15 19 59*00
22*178
185035*0
54*15
18
1341 13*51
19*943
131047*7
87-23
15 22 12*23
152425*76
15 2639*60
22*230
1855 571
53'*3
'9
1343 13; *9
19-983
131020*5
1328 8*3
86-72
>9
22-281
19 113-8
52-31
20
134513-3°
20*023
86-20
20
22*333
19 624*8
51-37
ai
134713*56
20*064
133643*9
134516*3
85*67
21
152853*75
15 31 8*22
22 - 385
19 11 30*2
50*42
22
134914-07
20*105
85-13
22
22-437
19 1629*9
1921 23*8
49*47
*3
1351 14*82
20' 147
13 5345-5
84*59
23
153322*99
22*488
48*50
\h
*3 53 15-83
20*189
S.14 2 ii*4| 84-04
24
153538*07
22-539
S.19 26 ii*9
47*53
Digitize
d by VjOOQ I
120
JULY, 1882.
XI.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
§
ta
Right
Ascension.
Var.
in io».
Declination.
Var.
in io".
1
a
Right
Ascension.
Var.
in io".
Declination.
Var.
in io".
TUESDAY 25*
Thubsday 27.
h m • ■
# * *
h m ■ •
• » •
_ 1
153538-07
22-539
S.1926 11-9 47*53
172911-99
24-598
S.2I 527*0 9-11
I
I5 37 53-46
22*591
1930.54-1
46-54
I
173139-66
24*626
21 4 28* 3! 10-45
2
1540 9*16
22 * 642
193530*4
45*55
2
1734 7-50
24-654
21 321*6
11-79
3
1542 25-16
22-693
1940 0-7
44*55
3
173635-51
24-681
21 2 6*8
13*14
4
15 4441*47
22-743
194425-0
43*53
4
1739 3-67
24-707
21 043*9
H*49
5
154658-08
22-794
194843-1
42*51
5
174131-99
24*732
2059 12*9
15-85
6
154915-00
22*845
195255-1
41-48
6
1744 0-45
24*756
205733-7
17-22
1
15 51 32*22
22*895
1957 0-9
40*44
1
1746 29*06
24*780
20 55 46* 3
2053 50*8
1858
15 53 49' 74
22-945
20 1 o*4
39*39
174857*81
24*803
19*93
9
1556 756
22*995
20 453-6
38*34
9
17 51 26*69
24*824
2051 47-1
21*30
10
155825-68
23*045
20 840-5
37**7
10
17 53 5570
175624*84
24*846
204935-2
22*67
11
16 044-10
23*094
20 12 20*9
20 1554*8
36-19
11
24*866
2047 15*1
24-04
12
16 3 2*8l
*3*M3
35-11
12
175854*09
18 123-46
24*885
204446*7
25*42
13
16 521*82
23*192
20 19 22-2
34*02
13
24*903
2042 IO'I
26-78
"4
16 741*12
23*240
20 2243*0
32*91
14
18 3 5*93
18 622-51
24921
20 3925*3
28-16
15
16 10 0-70
23*288
2025 57-1
31*80
15
24-938
20 36 32*2
*9'54
16
16 12 20-58
*3*337
2029 4-6
30*68
16
18 852-18
»4'953
2033 30*8
30-92
l 7
161440*74
23*384
2032 5-3
*9*55
17
18 11 21*95
18 1551*81
18 1821-75
24-969
20 3021-2
32-29
18
16 17 1-19
*3*43»
203459-2
203746-3
28*42
18
24*983
2027 3*3
33*67
! 9
16 1921*92
23-478
27*28
19
24-996
2023 37*2
35*04
20
16 21 42*92
23-524
204026*5
26*12
20
18 18 51*76
25*008
2020 2*8
36-42
21
1624 4'2I
23-570
204259-7
2045 26*0
24-96
21
18 21 21*85
25*020
20 1620-2
37*79
22
16 26 25-76
23615
23-78
22
18 23 52-00
l8 20 22*22
25*031
20 1229*3
39*17
2 3
162847-59
23*661
S.204745'1
22*60
23
25*041
S.20 830-2
40*54
Wedhesi
>AY 26.
Fbida
7 28.
16 31 9*69
23 705
S.20 49 57'2 21*42
l8 28 52*4925*049
S.20 4 22*8
41*92
I
163332-05
16 35 5468
*3'749
20 52 2-1
20*23
1
l8 31 22-8l
25-058
20 O 7*2
43-28
2
*3*793
205359-9
19-03
2
183553-18
183623-59
25*065
i95543'4
44*66
3
163817-57
23-836
205550-4
17-82
3
25-071
195111-3
4603
4
164040*71
23*878
205733-7
16-60
4
183854-03
25-077
194631*1
47*38
5
1643 4-11
23-921
20 59 9'^
21 038-1
15*37
5
184I 24-51
25*082
194142-7
48-75
6
164527-76
23-962
14-14
6
I843 55-OI
184625*53
25-085
19 3646-1
50-11
7
164751-65
24 * 003
21 159-3
12*91
I
25*088
193141-4
51-46
8
165015-79
24*043
21 3 13-0
u-66
184856*07
25*091
19 2628*6
52*82
9
165240-17
24*083
21 4 19*2
10*40
9
l8 51 26'62
25 * 092
1921 7-6
19 15 38*6
54*17
10
1655 4-79
24*122
21 517'*
21 6 8-9
9-14
10
185357-17
l8 5627-72
185858-27
25*092
55*51
11
165729-64
24*160
7-88
11
25-092
19 10 i*5
56-85
12
165954-71
24*198
21 652*4
6-6i
12
25*091
19 416*4
58*18
x 3
17 2 20*01
24*235
21 728*2
5*33
13
19 I28-8I
25*089
185823*3
59*5*
H
17 445 # 53
24-272
21 756-3
4-04
14
19 3 59*34
19 629-85
25-087
l8 52 22*2
60*84
IS
17 711-27
24-308
21 8 16-7
2-75
15
25-083
1846 13*2
183956*3
62*16
16
17 .937-22
*4*343
21 829*3
1*46
16
19 9 o-u
19 11 30-80
25-079
63*47
*7
17 12 3-38
M'377
21 834*2
0-16
'7
25*074
183331*5
1826589
64-78
18
171429-74
24411
21 831-2
1-16
18
19 14 1-23
25*068
66-08
J 9
17 10 56-31
24 '444
21 820-3
a*47
'9
19 16 31*62
25*061
18 20 18-5
67-38
20
171923-07
24*476
21 8 1-5
3*78
20
19 19 1*96
*5*o54
18 1330*3
l8 634*4
68-67
21
17 21 50-02
24-508
21 734-9
5-n
21
19 21 32*27
25*047
69-95
22
17 24 17-16
*4*539
21 7 0-2
6*44
22
1924 2-53
19 26 32*73
1929 2-87
25*038
I7 59 30*9
71-23
*3
172644-49
24* 569
21 617*6
7*77
23
25-028
1752 19*7
72-50
*4
17 29 11-99124-598
S.2I 527-0
9-xi
24
25-018
S.1745 0*9
73-76
Digitized by '
jOCK
XII.
JULY, 1882.
12
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Right
Ascension.
Var.
in io".
Declination.
Var.
in io - .
1
Right
Ascension.
Var.
in lo**.
Declination.
Var.
in io*.
Saturday 29.
MOHDAY 31.
h xn a •
1 9 *
h m a s
/ * »
O
1929 2-87
25*018
S.I745 0*9
73*76
21 27 3*22
24*034
S. 94542-8 121-03
1
193132-95
25 ' 007
173734*6
75*oi
I
21 2927-35
24*009
9 33 34'7
121*67
2
1934 2 96
24-996
1730 o-8
76*26
2
213151*33
23*985
9 21 22'8
122*30
3
19 36 32*90
24-984
1722 19-5
77'49
3
21 34i5'i7
21 3638*86
23*961
9 9 7' I j I « , 9i
85647*9123-50
4
1939 2-77
24*972
171430*9
78-72
4
23*936
5
194132-57
1944 2*28
14*959
17 634-9
79*94
5
21 39 2*40
23*912
84425-1
124*08
6
14*945
165831-6
81-15
6
21 41 25*80
23*888
83159-0
124*63
1
194631-91
H'931
165021*1
82*34
1
214349*05
21 46 12*15
23*863
l l Wi
125-18
1949 1-45
24-916
1642 V5
1633387
83'53
23*838
8 6568
125*72
9
19 51 30-90
24*901
84-72
9
21 48 35*ii
23*815
75420-9
126*23
10
1954 0*26
24*885
1625 6-9
85-89
10
215057*93
23*792
74142*1
126*72
11
19562952
24-868
16 1628-0
87-05
11
21 53 20*6l
23*768
729 0*3
127*20
12
19585868
24*852
16 742-3
88*19
12
215543*14
13*744
71615*7
127*66
13
20 127-74
24-834
155849*7
89*33
J 3
2158 5*54
23-721
7 328*4
128*11
14
20 356*69
20 625-53
24*816
154950-3
90*46
14
22 027*79
23*698
65038-4
128*54
15
H'797
154044-2
91-58
15
22 249-91
23-676
63745-9
128*95
16
20 854-25
24*778
153131*4
92-68
16
22 5 11*90
23-653
624 51-0
129-34
17
20 11 22*87
24-760
15 22 I2'0
93*78
17
22 733-75
23-631
6 11 53*8
129-72
18
201351-37
24*739
15 I2 46'I
94*86
18
22 9 55 '47
23-608
55854*3
130*09
19
20 16 19*74
20 184800
14-719
15 313-7
95*93
l 9
22 12 17-05
23-586
545 52*7
130*44
20
24*699
H 53 34*9
96*98
20
22 14 38*5023*565
53249*0
130*77
;2I
2021 16-13
24-678
144340-9
143358*6
98-03
21
22 16 59*83 23*544
51943*4
1 3 1 * 09
22
2023 44*14
20 26 12*02
24*657
99*07
22
22 19 21-0323*523
5 635*9
s. 45326-7
131*39
*3
24*636
S. 14 24 1 * 1
100*09
23
22 21 42*io;23*502
131*67
SUNDA
r 30.
Tuesday, AUGUST 1.
2028 39*77,14-614
S.i4i3 57"5;«°i-io
0)2224 3*05
23*482
S. 44oi5-9'i3i*93
I
2
2O3I 7-39*4-59*
203334*87.24-569
2036 2* 22*24*547
20 38 29-43J24-5*3
H 3 47'9
1353324
102*09
103-07
1
1
3
4
134311-1
133244*1
104-03
104*98
5
6
2040 56*5024*500
204323*4324-477
13 22 11-3
131132-9
105*93
106-86
PHASES OF 1
rHE MOON.
7
8
204550-2224*453
2048 16*8724-429
13 049*0107*77
i2 49 59'7|io8-6 7
9
10
205043-3724-405
2053 9*7324*381
1239 5*0
1228 5-1
109*55
1 10*42
July 7
<[ Last Q
h m
uarter - 9 51*8
11
20 55 35 # 94*4-357
12 16 59*9111*28
H
• NewM
oon - - 19 1*3
12
2058 2-0124-333
12 549*7112*12
22
J First C
\uarter - 22 17*5
13
21 027-9324*308
ii54 34'5"*'94
30
O Full M<
>on - - 2 1*5
14
21 253-7024-183
11 43 14-4113*76
15
21 5 I9«2 4 *a 5 8
21 744-8024-234
113149-4114-56
16
112019-7115*33
l l
21 IO 10*1324*208
11 845*4 ! u6*io
10 57 6*5'ix6*85
.Tiller <• ) A *D*Mw!«MfcA
n
- 13
8
18 21 1235-3024-183
uuiy 3
<[ Apogee
<[ Perigee
19
20
21 15 0-3324*159
21 17 25*21 24-133
I045 23-2'il7- 5 8
103335*5118*31
x 9
m m • • m T 9
3 1
m m » — *" 1 *
21
22
21 19 499324IC8
21 22 14-5124-084
102143*5 119*02
10 947*3119*70
*3
21 24 38*9424*059
95747*1120*37
H
21 27 3 '2224-034
S. 94542-8121*03
Digitized by
Googk
122
JULY, 1882.
XIII.
MEAN TIME.
LUNAR DISTANCES.
Btar'i Name
P.L.
P.L.
P.L.
PX.
i
and
Noon,
of
m\
of
VP.
of
IXN
of
Position.
diff.
diff.
diff.
diff.
t *
t *
1 *
/ *
1
Spica W.
80 41 21
"34
82 28 58
2225
84 16 49
2216
86 4 52
2208
Antares W.
35 3i * 6
2287
37 17 34
2274
39 4 "
2262
40 51 7
2251
FomalhautE.
54 " 45
69 7 43
3015
52 5 i 51
3044
51 22 33
3078
49 53 56
63 56 41
3117
a Pegasi E.
2400
67 24 8
2396
65 40 27
*39*
2390
2
Spica W.
95 7 5*
2176
96 56 55
2171
98 46 6
2167
100 35 23
2163
Antares W.
49 49 30
2207
5i 37 47
2201
53 *6 13
2195
55 14 49
2190
FomalhautE.
42 45 15
3420
41 23 21
3509
40 3 7
3612
38 44 46
3730
a Pegasi E.
55 17 33
2396
53 33 53
96 5 52
2402
51 50 21
2410
50 7
2419
a Arietis E.
97 53 53
2218
2213
94 «7 43
2208
92 29 27
2204
3
Antares W.
64 19 19
2174
66 8 26
2173
6 7 57 35
2172
69 46 45
36 33 25
2x71
a Pegasi E.
41 u 44
83 26 58
2505
39 53 37
2532
38 13 9
2564
2602
a Arietis E.
2194
81 38 21
2193
79 49 43
2193
78 I I
2194
Saturn E.
100 52 51
2185
99 4 1
2184
97 15 *°
2184
95 26 18
2x84
4
Antares W.
78 52 26
2178
80 41 27
2181
82 30 24
2184
84 19 16
2x87
a Aquilie W.
?! it v
377*
35 58 41
67 10 14
3637
37 16 35
65 22 3
35*o
38 3 6 37
63 33 59
80 56 33
3419
a Arietis E.
2207
2211
2216
2221
Saturn E.
86 22 18
2192
84 33 39
2194
82 45 3
2198
2202
Aldebaran E.
102 2 29
2173
100 13 20
2176
98 24 16
2179
96 35 16
2182
Sun E.
135 36 5
2467
133 54 5
2469
132 12 8
2472
130 30 15
H75
5
Antares W.
93 ** 4
2212
95 10 14
22x7
96 58 16
2224
98 46 8
2230
a Aquita W.
45 4i 18
3076
47 9 57
5* 48 53
3031
48 39 3i
2992
50 9 53
49 15 *8
66 32 40
2957
a Arietis E.
54 35 56
2257
2266
11 2 3
2276
2286
Saturn E.
7* 55 37
87 31 52
2227
70 7 49
2233
68 20 10
2239
2245
Aldebaran E.
2206
85 43 34
2212
83 55 25
2218
82 7 25
2225
Jupiter E.
95 57 i«
2260
94 10 17
2265
92 23 26
2271
90 36 44
2278
Sun E.
122 2 14
2499
120 20 59
2505
118 39 52
25 1 1
i 16 58 54
2517
6
a Aquilee W.
57 50 54
2844
59 H 25
2830
60 58 14
2818
62 32 18
2808
FomalhautW.
34 * 6 23
4208
35 34 4i
4048
36 45 34
3909
37 58 45
3788
a Arietis E.
40 26 43
2351
38 41 57
2367
36 57 35
2385
35 13 38
2404
Saturn E.
57 37 42
2282
55 5i 16
2290
54 5 2
2298
f l8 S l
-67 49 46
76 29 21
2306
Aldebaran E.
73 9 58
81 45 44
2262
71 23 2
2270
69 36 18
2278
2286
Jupiter E.
2314
80 5
2322
78 14 37
105 16 48
2330
*337
Sun E.
108 36 30
*555
106 ^ 33
2564
2572
103 37 14
2580
7
aAquito W.
70 25 2
2786
71 59 48
2785
73 34 36
2785
75 9 *3
48 42 20
2787
FomalhautW.
44 3 1 *9
338i
45 54 7
33*8
47 17 46
3281
3240
a Pegasi W.
23 24 46
3367
24 47 40
3*43
26 12 58
3H3
27 40 15
38 l8 27
3062
Saturn E.
43 3 1 58
2352
41 47 14
2361
40 2 43
2371
2381
Aldebaran E.
59 20
2332
57 15 7
2342
55 30 9
2351
53 45 H
2362
Jupiter E.
67 46 3
2381
66 2 1
2390
64 18 12
2400
62 34 37
2408
Sun E.
95 22 26
2626
93 44 7
2635
92 6
2645
90 28 6
2655
8
a Aquilie W.
83 2 19
2809
84 36 35
2816
86 10 42
2824
87 44 39
2832
FomalhautW.
55 55 30
3100
57 23 39
3082
58 52 11
3067
60 21 1
3°54
a Pegasi W.
35 16 27
2829
36 50 17
2804
38 H 39
2783
39 59 29
39 56 *7
48 53 47
77 3* 58
2766
Aldebaran E.
45 5 23
2414
43 22 8
2426
41 39 10
*437
2449
Jupiter E.
53 59 55
*455
52 17 39
2465
50 35 36
*475
2484
»
Sun E.
82 21 58
2705
80 45 24
2715
79 9 4
2725
*735
Digitized by
c
00
o
XIV.
JULY, 1
882.
123
MEAN TIME.
LUNAB DISTANCES.
I
Star's Name
P.L.
P.L.
P.L.
PX.
and
Midnight.
of
XV*.
of
xvim
of
XXR
of
Position.
diff.
diff,
diff
diff
O 9 *
# *
t
# #
I
Spica W.
«7 53 7
42 38 19
2201
89 41 33
2x94
91 30 10
2188
93 18 56
44 8 38
2x81
Antares W.
2240
44 *5 47
46 59 13
2231
46 13 29
2222
2214
FomalhautE.
48 26 7
3162
3214
45 33 *°
3*74
334*
a Pegasi E.
62 12 52
2388
DO 29
2389
58 45 9
2390
57 1 19
2392
2
Spica W.
102 24 46
2159
IO4 14 15
2157
106 3 47
**55
107 S3 23
62 30 16
**53
Antares W.
57 3 31
37 28 30
48 23 S3
2185
58 52 21
2182
60 41 16
2179
2x76
FomalhautE.
3866
36 14 36
4022
35 3 18
4204
33 54 56
43 16 *3
4415
a Pegasi E.
2430
46 41 I
*445
44 58 30
2462
2482
a Arietta E.
90 41 6
2200
88 52 39
2198
87 4 8
2x96
85 15 35
2194
3
Antares W.
71 35 56
2172
73 25 6
2173
75 14 15
3i 39 58
2174
77 3 **
2176
a Pegasi E.
34 54 33
76 12 28
2646
33 16 40
2698
2759
30 4 36
70 46 S4
88 11 2
2832
a Arietis E.
2196
74 *3 54
2197
72 35 22
2200
2203
Saturn E.
93 37 *7
2185
91 48 37
2186
89 59 48
2188
2189
4
Antares W.
86 8 3
2192
87 56 43
2196
89 45 17
2200
9i 33 44
2205
a Aquilae W.
39 55 3*
61 46 3
79 I 8
3330
41 22 9
3*53
42 47 15
3186
44 13 4i
56 23 11
3127
a Arietis E.
2227
59 58 15
2234
58 10 38
2241
2249
Saturn E.
2206
77 19 5o
2211
75 31 38
2216
73 43 34
89 20 19
222X
Aldebaran E.
94 46 22
2186
9* 57 34
2191
91 8 53
2196
2200
Sun E.
128 48 26
*479
127 6 44
2483
125 25 7
2488
123 43 37
*493
5
Antares W.
IOO 33 51
2237
102 21 23
2244
104 8 45
2252
105 55 56
2260
a Aquita W.
5i 4o 59
47 *9 8
2927
53 " 43
2902
54 44 59
2880
56 17 44
2860
a Arietis E.
2297
62 58 9
2309
43 57 18
61 11 9
2322
42 11 50
2336
Saturn E.
64 45 20
2252
2259
2266
59 24 20
2274
Aldebaran E.
80 19 34
2232
78 31 54
2239
76 44 24
85 17 37
2246
74 57 5
2254
Jupiter E.
88 50 12
2284
87 3 49
2291
2298
83 3i 35
2306
Sun E.
115 *8 5
2525
113 37 26
2532
in 56 57
*539
no 16 38
*547
6
a Aquilffi W.
64 6 35
2801
65 41 1
2795
67 15 36
2790
68 50 17
2787
FomalhautW.
39 H
3683
40 31 5
359i
41 49 49
35 12
43 10
28 23 1
45 16 S 6
344*
a Arietis E.
33 30 9
2426
31 47 "
2450
30 4 47
*477
2507
Saturn E.
|o 33 9
2315
48 47 3*
64 17 20
2324
47 * 7
62 31 27
>333
*34*
Aldebaran E.
66 3 26
2296
2304
2313
60 45 47
2322
Jupiter E.
74 44 16
2346
72 59 24
*355
71 H 45
a363
69 30 17
*373
Sun E.
101 57 52
2589
100 18 42
2598
98 39 44
2607
97 59
2616
7
a Aquilae W.
76 44 8
2790
78 18 49
*794
79 53 *5
2798
81 27 56
2804
Fomalhaut W.
50 7 42
3204
5i 33 47
3172
53 *9
3144
54 «7 45
3120
a Pegasi W.
29 9 11
2996
30 39 29
2942
32 10 55
2897
33 43 17
2860
Saturn E.
36 34 25
2391
34 50 37
50 16 38
2401
H 7 $
48 32 38
2412
3i *3 47
46 48 53
2423
Aldebaran E.
52 54
2371
2382
*393
2403
Jupiter E.
60 51 14
24x7
59.8 4
2427
V 2 * 8
85 35 45
*437
55 4* * 5
83 58 45
2446
Sun E.
88 50 26
2665
87 12 59
2675
2685
2695
8
a Aquilae W.
89 18 25
2841
00 51 59
2851
92 25 21
2862
93 58 29
66 18 39
2872
FomalhautW.
61 50 7
3043
63 19 27
3033
64 48 59
3026
3020
a Pegasi W.
41 34 41
«753
43 10 11
36 31 54
2742
44 45 55
*733
46 21 51
2726
Aldebaran E.
38 14 2
2461
2473
34 50 3
2487
33 8 31
2500
Jupiter E.
47 12 11
2493
45 3° 48
2503
43 49 39
2512
42 8 43
2522
Sun E.
75 57 5
*745
74 *i *5
2756
72 46
2766
7i 10 47
2777
Digitized by
00
o
124
JULY, 1
882.
XV.
MEAN TIME.
LUNAR DISTANCES.
1
8tar'sNam«
and
Position.
Noon.
P.L.
of
diff.
IIP.
P.L.
of
diff.
VI*
P.L.
of
diff.
IX\
P.L.
of
diff.
9
a Aquilae W.
FomalhautW.
a Fegasi W.
Aldebaran E.
Japiter E.
Sun E.
t n
§5 31 23
67 48 27
47 57 57
31 27 18
40 20
69 35 49
2884
3016
2721
2514
2532
2787
1 K
97 4 a
69 18 20
49 34 9
20 46 25
l! 4 ? 3 1
68 1 4
2897
3013
2717
2530
2541
2797
t 9
98 36 25
70 48 17
51 10 26
28 5 54
66 26 32
29x0
301 1
2716
2546
2551
2808
1 *
100 8 32
72 18 17
52 46 45
26 25 45
35 *7 "
64 52 14
2924
3010
2714
2564
2561
2818
10
FomalhautW.
a Pegasi W.
Sun E.
79 4f 3
00 48 22
57 4 6
3021
2721
2870
81 17 50
62 24 34
55 3i 9
3026
2725
2880
82 47 30
64 40
53 58 *5
3031
2729
2891
84 17 4
65 36 41
52 *5 55
3037
*733
2902
ii
FomalhautW.
a Pegasi W.
» Arietis W.
Sun E.
91 42 41
73 35' 7
*9 57 4i
44 46 48
3080
2762
2771
2936
93 » l S
75 10 25
3 1 3* 47
43 15 4o
3090
2769
2766
2966
94 39 37
76 45 34
33 «
41 44 45
3101
2775
2762
2978
96 7 46
78 20 34
34 43 18
40 14 5
3114
2782
2760
2989
12
a. Pegasi
a Arietis
Sun
W.
W.
E.
86 13 6
42 39 53
32 44 22
2822
2767
3050
87 47 5
44 *5 4
31 15 11
2831
2771
3064
89 20 53
45 50 ">
29 46 17
2840
*775
3078
90 54 29
47 *5 10
28 17 40
2849
2781
3092
16
Sun
Spica
An tares
W.
E.
E.
14 29 56
74 35 3°
119 58 8
3477
2950
2976
15 50 46
73 4 15
118 27 25
3457
2958
2982
17 11 58
71 33 10
116 56 50
3445
2966
2989
18 33 24
70 2 14
115 26 23
3436
*973
2996
l 7
Sun
Spica
Antares
W.
E.
E.
25 22 4
62 29 46
107 50 11
34*5
3006
3027
26 43 52
60 59 41
106 26 32
34*7
3012
3033
28 5 38
59 *9 43
104 57
34*9
3019
3039
29 27 22
57 59 54
103 27 35
343*
3024
3044
18
Sun
Spica
Antares
W.
E.
E.
36 15 19
50 32 26
96 2 6
3445
3049
3069
37 36 45
49 3 14
94 33 * 8
3447
3<>54
3°73
38 58 8
47 34 8
93 4 35
3450
3058
3076
40 19 28
46 5 7
91 35 56
3453
306 X
3080
19
Sun
Spica
Antares
W.
E.
E.
47 5 «9
58 41 1
84 13 44
3462
3076
3094
48 26 36
37 12 22
82 45 27
3463
3°77
3096
49 47 4i
35 43 44
81 17 12
34^4
3079
3097
51 8 45
34 *5 9
79 48 59
3464
3080
3099
20
Sun
Venus
Spica
Antares
W.
W.
E.
E.
57 54 8
21 20 29
26 52 23
72 28 9
3461
3742
3081
3100
59 15 16
22 42 32
25 23 50
70 59 59
3459
3718
3079
3098
60 36 26
23 59
23 55 15
69 31 47
3457
3698
3078
3097
61 57 38
«5 15 49
22 26 38
68 3 34
3455
3680
3076
3096
21
Sun
Venus
Mars
Antares
W.
W.
W.
E.
68 44 34
3i 44 15
25 12 l8
60 41 49
3434
3608
3408
3082
70 6 12
26 34 26
59 13 ^7
34*9
3596
339a
3078
71 27 56
34 21 20
27 56 52
57 44 40
34*3
3583
3376
3073
72 49 46
35 40 13
29 19 36
5 6 15 57
3416
357*
3361
3069
22
Sun
Venus
Mars
Antares
a Aquilae
W.
W.
W.
E.
E.
79 4o 56
42 17 50
36 17 13
48 50 51
101 5 18
3378
3512
3295
3039
3439
81 j 38
43 3» »
37 4i 3°
47 21 27
99 43 45
3370
3499
3283
3034
34*7
82 26 29
44 58 26
39 6 1
45 5i 56
98 21 59
3360
3487
3270
3027
34H
85 49 3*
46 19 5
40 30 48
44 22 16
96 59 58
3349
3474
3*57
3020
3403
*3
Sun
Venus
Mars
W.
W.
W.
90 47 52
53 f 3
47 38 34
3291
3405
3189
92 12 14
54 28 14
49 4 56
3279
3390
3175
93 3 6 5o
55 5° 4*
50 31 35
3266
3375
3x60
95 1 4i
57 13 *7
51 58 32
3*5*
3359
3146
Digitized by
Google
XVI.
JULY, 1 88a.
125
MEAN TIME.
LUNAll DISTANCES.
ft
Star's Name
and
Position.
Midnight.
P.L.
of
cliff.
xv\
P.L.
of
diff.
XVIII*.
P.L.
of
diff.
XXI*.
P.L.
of
diff.
9
a Aquilae W.
FomalhautW.
a Pegasi W.
Aldebaran E.
Jupiter E.
Sun E.
/ *
101 40 20
73 48 18
54 23 7
24 46 1
33 47 23
63 18 10
2938
3010
2714
2584
2570
2828
1 It
103 II 51
75 18 18
55 59 *8
23 6 44
52 7 46
61 44 18
*954
3012
2714
2606
2580
2839
/ *
104 43 1
76 48 16
57 35 49
21 27 57
30 28 24
60 10 41
2970
3014
2716
2632
2589
2849
1 n
106 13 51
78 18 II
59 12 7
19 49 45
28 49 14
58 37 17
2987
3017
2719
2661
*599
2859
10
FomalhautW.
a Pegasi W.
Sun E.
85 46 3'
67 12 37
50 53 38
304S
2738
2913
87 15 48
68 48 26
49 *i 35
3052
2744
2924
88 44 56
70 24 7
47 49 46
3060
2750
*934
90 13 54
7£ 59 4i
46 18 10
3069
2756
*945
11
FomalhautW.
a Pegasi W.
a Arietis W.
Sun E.
97 35 39
79 55 25
36 18 38
38 43 39
3x25
2790
*759
3001
99 3 18
81 30 6
37 54
37 13 27
3138
2798
2760
3013
100 30 41
83 4 36
39 29 20
35 43 3 1
3152
2805
2762
3025
101 57 47
84 38 57
41 4 38
34 13 49
3167
28x4
2764
3<>37
12
a Pegasi
a Arietis
Sun
W.
W.
E.
92 27 54
49 3
26 49 20
2859
2785
3107
94 1 6
50 34 50
25 21 19
2867
2791
3124
95 34 7
52 9 29
23 53 38
2877
*797
3142
97 6 55
53 44 1
22 26 19
2887
2806
3161
16
Sun
Spica
An tares
W.
E.
E.
19 55
68 31 27
113 56 5
3430
2980
3002
21 16 42
67 49
112 25 55
34*7
2987
3008
22 38 28
65 30 20
no 55 52
34*5
2993
3015
24 16
63 59 59
IO9 25 58
34*5
3000
3021
17
Sun
Spica
Antares
W.
E.
E.
30 49 4
56 30 n
101 58 17
3434
3030
3049
32 10 42
55 35
100 29 5
3436
3035
3<554
33 32 18
53 3i ^
98 59 59
3439
3040
3060
34 53 50
52 1 43
97 31 °
344*
3045
3064
18
Sun
Spica
Antares
W.
E.
E.
41 40 45
44 36 10
90 7 22
3455
3065
3083
43 1 59
88 38 52
3457
3068
3087
44 23 n
41 38 29
87 10 26
3459
3070
3089
45 44 21
40 9 43
85 42 3
3461
3073
3092
*9
Sun
Spica
Antares
W.
E.
E.
52 29 49
32 46 35
78 20 48
3464
3081
3100
53 50 53
31 18 2
76 52 38
3464
3081
3100
55 11 57
29 49 29
75 H 28
3463
3081
3100
56 33 2
28 20 56
73 56 19
34 6 3
3081
3100
20
Sun
Venus
Spica
Antares
W.
W.
E.
E.
63 18 53
26 32 57
20 57 59
66 35 19
345 «
3663
3<>74
3093
64 40 12
27 50 23
19 29 18
65 7 1
3447
3648
3072
3091
66 1 35
29 8 6
18 34
63 38 41
3444
3635
3069
3088
67 23 2
30 26 3
16 31 47
62 10 17
3439
3621
3066
3085
21
Sun
Venus
Mars
Antares*
W.
W.
W.
*E.
74 » 44
36 59 18
30 42 37
54 47 9
3410
3560
3348
3064
75 33 49
38 18 36
3* 5 53
53 18 15
3403
3547
3334
3058
76 56 2
39 38 8
33 29 25
5i 49 14
3395
3536
3321
3052
78 18 24
40 57 52
34 53 !*
50 20 6
3386
35*4
3309
3046
22
Sun
Venus
Mars
Antares
a Aquilae
W.
W.
W.
E.
E.
85 1* 47
47 39 58
4i 55 50
42 52 28
95 37 45
3338
3461
3*45
3012
3390
86 36 14
49 1 6
43 21 7
41 22 30
94 15 17
33*8
3447
3231
3005
3378
87 59 53
50 22 29
44 46 40
39 5* 23
92 52 36
3317
3433
3217
2997
3366
89 23 46
51 44 8
46 12 29
38 22 7
91 29 41
33<>5
3419
3203
2989
3355
*3
Sun
Venus
Mars
W.
W.
W.
96 26 49
58 36 30
53 ^S 46
3238
3343
3130
97 5* 13
59 59 5*
54 53 19
3224
33*8
3"5
99 17 54
61 23 31
56 21 10
3209
33"
3099
100 43 53! 3x94
62 47 30! 3*94
57 49 21I3083
Digitized by VjOOQK
126
JULY, 1882.
XVII.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L.
P.L.
*
and
Noon.
of
IIP.
of
VI*.
of
IX\
of
Position.
diff.
diff.
diff.
diff.
1 *
t
I #
o.# *
23
Antares E.
36 51 41
2982
88 43 12
*974
J3 50 21
87 I 9 38
2968
32 19 28
»5 55 50
2961
aAquil© E.
90 6 33
3344
3332
3320
3310
24
Sun W.
102 10 10
3178
103 36 46
3162
105 3 41
3H5
106 30 56
3129
Venus W.
64 11 49
3*77
65 36 27
3*59
67 I 26
3241
68 26 46
3**4
Mars W.
.59 i7 5*
3067
60 46 41
3051
62 15 51
3033
63 45 23
26 7 2
3016
Spica W.
21 24 3
2821
22 58 3
2807
24 32 22
2791
*775
a Aquila E.
75 53 44
3258
77 28 43
3248
76 3 30
3*39
74 38 7
3230
FomalhautE.
106 51 26
3332
105 27 52
3311
IO4 3 53
3288
102 39 27
3266
*5
Sun W.
113 52 17
3042
115 21 38
3023
Il6 51 22
3005
118 21 28
2988
Venus W.
75 38 52
3130
77 6 *5
3110
78 34 22
3091
80 2 43
3071
Mars W.
71 18 27
2927
72 50 12
2909
74 22 20
2890
75 54 52
2871
Spica W.
34 5 44
67 28 50
2691
35 4* 3 6
2675
37 19 50
2657
38 57 28
63 9 54
2638
a Aquita E.
3196
66 2 36
3192
64 36 17
3189
3187
FomalhautE.
95 3 1 5
3164
94 4 13
3144
92 36 57
3126
9i 9 *9
3108
26
Sun W.
125 57 46
2894
127 30 12
2876
129 3 3
2857
130 36 17
2838
Venus W.
87 30 36
2971
89 1 25
2950
90 32 40
2930
92 4 21
88 29 55
2910
Mars W.
83 43 38
*775
85 18 39
2756
86 54 4
*737
2718
Spica W.
47 " 44
2548
48 51 50
2530
50 32 21
2512
52 13 17
*494
a Aquilae E.
55 58 4
3202
g s n
3212
53 6 2
80 46 9
3**5
51 40 22
3241
FomalhautE.
83 4 c 50
101 28 19
3025
301 1
2997
96 36 56
2984
a Pegasi E.
2699
99 5i 38
2679
98 14 30
2660
2641
*7
Mars W.
96 35 32
60 44 24
2623
98 13 56
2605
99 5* 44
2586
101 31 58
2568
Spica W.
2403
62 27 55
2385
64 11 51
2368
65 56 12
2350
Antares W.
16 8 22
2648
17 46 11
2589
19 25 22
*539
21 5 41
2496
a Aquil® E.
44 38 20
3389
43 15 5i
3437
41 54 16
68 37 39
3494
40 33 45
3560
FomalhautE.
7i 40 55
88 22 43
*935
70 9 21
2929
2925
67 5 52
2923
a Pegasi E.
2548
86 42 37
2532
85 2 8
2515
83 21 15
2499
28
Spica W.
74 44 "
2267
76 31
2251
78 18 12
2236
80 5 46
2221
Antares W.
29 40 7
*344
31 25 2
2321
33 10 30
56 24 5
2300
34 56 30
2279
FomalhautE.
59 26 50
2939
57 53 20
73 8 26
2950
2964
54 53 7
2982
a Pegasi E.
74 5i H
2426
2413
71 25 9
2401
69 41 36
2390
29
Spica W.
89 8 57
2154
90 58 34
2x41
92 48 30
2130
94 38 43
21x9
Antares W.
43 53 3°
2194
45 4* 7
2179
47 3i 5
2165
49 20 26
2153
FomalhautE.
47 *5 45
3H5
45 58 30
3196
44 32 16
3*57
43 7 14
33*7
a Pegasi E.
61 21
2350
59 i5 35
2346
57 30 43
*344
55 45 47
98 23 10
2342
a Arietis E.
103 49 33
2199
102 1 4
2186
100 12 16
2174
2x63
30
Antares W.
•58 31 30
2XOX
60 22 28
2093
62 13 39
34 2 28
2086
64 5
2079
FomalhautE.
36 26 37
3889
35 13 6
4063
4265
3* 55 3
4506
a Pegasi E.
47 1 33
2366
45 17 9
2379
43 33 4
85 3« 30
*394
41 49 21
2413
a Arietis E.
89 13 45
2Il8
87 2% 13
107 6 3
2III
2105
83 4i 38
2099
Saturn E.
108 57 7
2097
2090
105 14 48
2083
103 23 23
2077
31
Antares W.
73 *3 55
2058
75 15 59
2056
77 8 6
2055
79 *5
28 27 25
2054
a Pegasi E.
33 *° 3
74 25 36
*595
31 41 1
2657
30 3 24
2731
2821
a Arietis E.
2084
72 34 12
2083
70 42 47
2084
68 51 23
2085
Saturn E.
94 4 25
2059
92 12 22
2057
90 20 16
2056
88 28 9
2055
AldebaranE. 107 30 36 2050 105 38 20 2049
103 46 2 2048 101 53 42 2048
Digitized by
Google
XVIII.
JULY, 1
882.
12
MEAN TIME.
LUNAR DISTANCES.
Start Nam*
P.L.
P.L.
t
and
Midnight.
of
XV*.
of
XVH1*.
Position.
diff.
diff.
/ #
1 *
r *
/ H
*i
Antares E.
to 48 26
*955
29 17 17
2949
27 46
*945
26 14 38
2942
a Aquil© E.
84 31 50
3*99
83 7 37
3288
8l 43 II
3278
80 18 34
3267
24
Sun W.
107 58 30
31x2
109 26 25
3095
no 54 41
3078
112 23 18
3060
Venus W.
69 52 27
3106
71 18 29
3187
72 44 54
3168
74 " 4i
3x48
Mars W.
65 15 16
*999
66 45 30
2981
68 16 7
2964
69 47 5
*945
Spies W.
27 42 3
»759
29 17 25
2742
30 53
70 20 58
2725
32 29 16
b8 54 58
2709
aAquita E.
73 " 33
3222
71 46 50
3215
3208
3201
Fomalhaut E.
101 14 36
3*45
99 49 *°
3224
98 23 39
3203
96 57 34
3183
*5
Sun W.
119 51 56
2969
121 22 48
2950
122 54 4
2931
124 25 43
86 11
2912
Venus W.
81 31 28
3051
83 38
3031
84 30 12
301 1
2990
Mars W.
77 27 48
285a
79 * 9
2833
80 34 54
2814
82 9 4
2795
Spica W.
40 35 3 1
2621
42 13 57
2603
43 5* 48
58 50 40
2585
45 32 3
2567
aAquilae E.
61 43 30
3186
60 17 4
3187
3190
57 24 19
3195
FomalhautE.
89 41 19
3090
88 12 57
3073
86 44 15
3056
85 15 12
3041
26
Sun W.
132 9 ss
2820
133 43 57
95 8 59
2802
135 18 22
2785
136 53 10
2766
Venus W.
93 35 27
2890
2870
96 41 57
2850
98 15 20
2830
Mars W.
90 6 11
2699
91 42 53
2680
93 20
2661
94 57 33
2641
Spica W.
53 54 39
H75
55 36 27
*457
57 18 40
2438
59 1 20
2421
a Aquilae E.
50 15 1
3260
48 50 3
3284
47 *5 33
33U
46 1 37
3347
Fomalhaut E.
77 45 21
2973
76 14 34
2961
74 43 33
295 X
73 12 19
2943
a Pegasi E.
94 58 57
2621
93 20 31
2603
91 41 40
2585
90 2 24
2566
27
Mars W.
103 11 37
2551
104 51 40
*533
106 32 7
2517
108 12 57
2500
Spica W.
67 40 59
*333
69 26 11
2316
71 11 47
2300
72 57 47
2283
Antares W.
22 47
*459
24 29 11
37 56 34
2426
26 12 8
2396
27 55 48
2369
a Aquilte E.
39 14 *7
65 34 2
3638
373i
36 40 20
62 30 18
3839
35 25 58
3965
Fomalhaut E.
2921
64 2 9
292a
2925
60 58 31
2930
a Pegasi E.
81 40
2482
79 58 22
2467
78 16 23
*453
7 6 34 4
*439
28
Spica W.
81 53 42
2206
85 42
38 29 59
2192
85 3° 39
2179
87 19 38
2l6<
Antares W.
36 43
2260
2242
40 17 24
2225
42 5 15
2209
FomalhautE.
53 22 32
3004
51 52 24
3031
50 22 49
3063
48 53 54
3101
a Pegasi E.
67 5.7 47
2380
66 13 44
2370
64 29 27
2362
62 44 59
*35<
29
Spica W.
96 29 13
2109
98 19 58
2100
100 10 58
2091
102 2 12
208a
Antares W.
51 10 5
2141
53 2
2130
54 50 16
21x9
56 40 46
2ii<
FomalhautE.
4i 43 33
3408.
40 21 25
3503
39 * 4
3612
37 4; 43
3731
a Pegaei E.
54 49
*343
52 15 52
*345
50 30 58
2350
48 46 11
»35<
a Anetis E.
96 33 47
2153
94 44 8
2143
92 54 14
2134
91 4 6
212/
JO
Antares W.
65 56 32
2073
67 48 12
2068
69 40
2064
7i 3 1 55
206;
FomalhautE.
p 5 1 l6
479'
30 51 32
5x27
29 56 15
5533
29 5 54
602i
a Pegasi E.
40 6 5
2438
38 23 24
2467
36 41 25
2502
35 15 *5*
a Arietis E.
81 50 37
2094
79 59 *Q
99 40 8
2091
78 8 16
2088
76 16 58
2o8<
Saturn E.
101 31 49
2073
2068
97 48 19
2064
95 56 24
206
3 1
Antares W.
80 52 25
2055
82 44 34
2055
84 36 42
2057
86 28 47
206
a Pegasi E.
26 53 25
2931
25 21 45
3067
23 52 55
3236
22 27 28
344
209
a Arietis E.
67
2087
65 8 41
2089
63 17 25
2093
61 26 16
Saturn E.
86 36 1
2056
84 43 54
2057
82 51 49
2059
80 59 47
20fl
Aldebaran E. 100 1 22
2047
98 9 1
2049
96 16 43 2050 94 24 27 20 i
Digitized by
Google
128
AUGUST, 1882.
1.
| AT APPARENT NOON.
i
4
1
THE SUN'S
Sidereal
Time of
Equation of
Time,
1
the Semi-
to be
added to
O
P
1
Apparent
Right Ascension.
Var.
in
1 hoar.
Apparent
Declination.
Var.
in
1 hoar.
diameter
passing
the
Meridian.*
Var.
in
1 hour.
eubt.Jrom
Apparent
Timt.
-Tues.
iWed.
Thur.
|
1
2
3
h m s
8 46 3-76
8 49 56-35
8 53 48-34
s
9-704
9-679
9' 6 54
1 *
N.17 59 46-9
17 44 29-5
17 28 54-6
37*86
38-59
39*31
m ■
I 6-63
i 654
1 645
ra ■
6 0*62
5 56-07
s
0-152
0-177
0*202
1
Frid.
Sat.
Sun.
4
5
6
8 57 39-75
9 * 30"5S
9 5 20-83
9-630
9*606
9-582
17 13 2-5
16 56 53*6
16 40 28*2
40*02
40*71
41*40
1 6-36
1 628
1 6*19
5 50*93
5 45*"
5 38*94
0*226 1
0-250 j
0-274 '
Mon.
Tues.
JWed.
I
9
9 9 10*52
9 " 59^3
9 16 48-18
9-558
9535
9-511
16 23 46-5
16 6 48-8
15 49 355
42-07
4»*73
43*37
1 6-n
1 6*02
« 5*94
5 3**<>9
5 H*67
5 16-68
0-297
0*321
o*345
Thur.
Frid.
'Sat.
10
11
12
9 20 36*16
9 -M *3*58
9 28 10*45
9-487
9-464
9-441
15 32 70
15 14 235
14 56 25-3
44-00
44-62
45-22
1 5-85
* 5*77
1 5-69
5 8-13
4 59'02
4 49*36
0-368
0*391
0*414
*Sun.
Mon.
jTues.
13
14
»5
9 3" 56*76
9 35 4*52
9 39 *7'73
9-418
9'395
9*373
14 38 12*9
14 19 46-4
14 1 63
45-8i
46-39
46-05
1 5-61
1 5'53
* 545
4 39*15
4 28-38
4 17*07
0*437
0*460
0-482
iWed.
:Thur.
Frid.
I
16
18
9 43 "'4i
9 45 56'57
9 50 40-20
9*351
9-329
9-307
13 42 12*8
13 23 6-3
13 3 47-1
47*50
48-04
48-56
* 5*37
1 5-30
1 5-23
4 5**3
3 52-88
3 39*97
0-504
0*526
0-548
'Sat.
[Sun.
Mon.
*9
20
21
9 54 *3*3*
9 58 5'94
10 1 48-07
9*286
9*266
9-246
12 44 15*6
12 24 320
12 4 36-7
49-06
49-56
50-04
1 5-15
1 5-08
1 5-oi
3 26-58
3 12-68
2 58*30
0*569
0*589
0-609
iTues.
,Wed.
.Thur..
22
23
*4
10 5 29-73
10 9 10-93
10 12 51*67
9*226
9-207
9-188
11 44 30-0
II 24 I2'2
11 3 43*7
50-51
5096
5i-4i
1 *'25
1 4-88
1 4*82
* 43*45
2 28*14
2 12-37
0-628
0*647
0-666
jFrid.
Sat.
Sun.
27
10 16 31*97
10 20 11*85
10 23 51-33
9-170
9*'53
9-137
10 43 4-7
10 22 15*6
10 1 16*7
51-84
52*25
52*65
1 4-76
1 4-70
1 4-65
1 56-16
1 39*53
1 22-50
0*684
0-701
0-718
Mon.
Tues.
Wed.
Thur.
J Frid.
28
29
3°
3 1
32
10 27 30-42
10 31 9*14
10 34 47-52
10 38 25-57
10 42 3-33
9*121
9' 106
9*092
9*079
9-067
9 40 8*2
9 18 50-5
8 57 25-9
8 35 48-5
N. 8 14 4-8
53*05
53'4«
53*79
54*15
54*49
1 4-59
1 4*54
1 4-49
1 4-44
1 4-40
1 5-08
47*30
29-18
10-73
o*733
0*748
0-762
0-775
0-787
8*oi
Ij* Mea:
1 Tin
ie of the Semidia
meter pasi
ing may be found
by subtr*
stingo'* 18 1
from the Side
real Time.
Digitized by
Got
o
II.
AUGUST, 1882.
J2<
AT MEAN NOON.
I
I
•8
•3
I
THE SUN'S
Apparent
Right Ascension.
Apparent
Declination.
Semi-
diameter.*
Equation of
Time,
to be
tubt.from
added to
Mean
Time.
Sidereal Time.
Tues.
Wed.
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thar.
Frid.
Sat
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
10
if
12
13
15
16
18
19
20
21
22
23
24
26
27
28
29
30
3'
32
h m 1
8 46 2*78
8 49 55-38
8 5$ 47*39
8 57 38-81
9 1 29-66
9 5 *9'93
9 9 963
9 " 58*77
9 16 47*34
9 *° 35*35
9 24 22*80
9 28 9-69
9 3 1 56*03
9 35 41*82
9 39 27-06
9 43 "*77
9 46 55*96
9 50 39* 6 3
9 54 2**79
9 58 5*45
10 1 47-62
10 5 29*32
10 9 10-55
10 12 51*33
10 16 31-68
IO 20 II*6o
10 23 51*12
io 27 30*25
10 31 9*02
10 34 47*44
10 38 25*55
10 42 3*35
7 59 50*7
7 44 33*3
7 *8 58-5
I l \ 6 ' 4
6 56 57*5
6 40 32*1
6 23 50*4
6 6 52*7
5 49 39*4
5 32 io*8
5 H *7'»
4 56 29*0
4 38 16*4
4 19 49
4 1 9
3 42 16*0
3 *3 9*4
3 3 5o*i
2 44 18*4
2 24 34*6
2 4 39*i
1 44 3**3
1 24 14*3
» 3 45*5
o 43 6*3
o 22 17*0
o 1 17*9
9 40 9*2
18 51*2
57 *4'3
8 35 48*7
N. 8 14 4*7
47*9
48*1
5
5 48*
48-3
48*4
486
48-7
48-9
49*0
5 49" a
5 49*3
5 49*5
49*7
49-8
50*0
50*2
50*4
50-6
50*8
51*0
51*2
51*6
5
5 5 o
5 5i*8
52*0
52*2
5**5
52-7
52*9
53*1
53*3
15 53*6
m 1
o 0*63
5 5609
s 50-96
5 45*24
5 3 8, 96
5 3*""
5 24-69
5 16-71
8-17
59*06
49-40
30-18
28-41
17-11
4 S # 27
3 52'9<>
3 40-01
26*61
12-71
58*33
43-48
28*16
2 12*39
56* 18
39*55
22*52
8 02
h m a
8 39 58-19
8 43 54-75
8 47 51-30
8 51 47-86
8 55 44-41
8 59 40-97
9 3 37-52
9 7 34-o8
9 11 30*63
9 15 27-19
9 19 23-74
9 23 20*29
9 27 16-85
9 3i 13*40
9 35 9*96
39 6-51
43 3*07
46 59*62
9 50 56-17
9 54 52-73
9 58 49*28
10 2 45-83
10 6 42*39
10 10 38-94
10 14 35-50
10 18 32-05
10 22 28*60
10 26 25-15
10 30 21*71
10 34 18*26
10 38 14,-81
10 42 ii*37
* The Semidiameter for Apparent Noon may be assumed the same as that for Mean Noon.
9 (NAUTICAL ALMANAC 1 882.) K
130
AUGUST, 1882.
in.
MEAN TIME.
4
1
■a
*s
5-
p
THE SUN'S
Apparent
Logarithm
of the
Radius
Vector
of the Earth.
Transit
of the
First Point
of
Aries.
THE MOON'S
Longitude.
Latitude.
Semidiameter.
Horizontal Parallax.
AW
Noon.
Noon.
Noon.
Midnight.
Noon.
MidnigJU.
1
2
3
# *
129 4 31-4
130 I 56*4
130 59 n*6
N.o*25
0*21
0*13
0*0063188
•0062615
•0062030
h m ■
15 17 31*08
15 13 35-17
15 9 39-27
1 v
16 36*7
16 32*3
16 24*3
t ft
16 35*0
16 28-7
16 19V
t ft
60 51 *5
60 35-5
60 6-3
I. •
60 45-4
60 22*3
59 47'9
4
5
6
131 56 50*1
132 54 18-9
133 51 49-1
N.o • 02
S.c 10
0*23
0*0061431
• 00608 I 6
•OO60184
15 5 43-36
IS 1 47*45
H 57 5i '54
16 13-8
16 1-9
J 5 49'7
16 7'9
15 55-8
'5 43*7
59 *7'7
58 44*2
57 593
59 6*3
58 ai'7
57 374
I
9
134 49 20-7
135 46 53'7
136 44 28*0
0*36
0-47
0-59
0-0059535
•0058867
•OO58179
H 53 55^3
H 49 59*72
14 46 3*81
15 37-8
15 26*9
15 17-1
15 32*2
15 21*8
15 12 *7
57 16-0
56 35*9
56 0*0
5f 55*4
56 17-4
55 43*7
10
11
12
137 42 3-8
138 39 40-9
139 37 19-2
0*69
0*76
o-8i
©•0057469
•OO56738
•OO55987
14 42 7-90
14 38 12*00
14 34 16*09
15 8-5
15 1*2
H 55 # i
l S 4-7
14 58*0
14 52-5
55 28-6
55 i-7
54 393
55 H-6
54 49*9
54 *9'»
'3
H
15
140 34 58*8
141 32 39-7
142 30 21*8
0-84
0-85
0-83
0*0055213
•0054418
•0053602
14 30 20*l8
14 26 24*27
14 22 28*36
14 50-2
14 46-5
14 44-3
14 48*2
14 45*2
14 43*8
54 2i'4
54 8-i
53 59*9
54 »4>
54 3*3
53 57*9
16
18
143 28 5* 1
144 25 49-5
145 23 35-2
0-78
0-71
0*03
0*0052765
•OO51909
•0051033
14 18 32*45
14 14 36* 54
14 10 40*64
H 43*7
14 44-8
14 48*0
14 44-0
14 46*1
14 50-5
53 57'5
54 i-8
54 135
53 58'8
54 6-6
54 "'5
'9
20
21
146 21 22*1
147 19 IO'I
148 16 59*4
o"53
0*41
0*29
0*0050137
•0040225
•OO48297
14 6 44-73
14 2 48*82
13 58 52-91
H 53*5
15 1*4
15 ii*8
*
14 57*2
15 6*3
15 17-9
54 33*6
55 *-6
55 40-6
54 47*o
55 20-5
56 2-8
22
23
24
149 14 49 -9
150 12 41*6
151 10 345
o*i6
S.o f o4
N.o- 08
0-0047353
•0046397
• 0045428
13 54 57*00
13 51 i-io
13 47 5*19
15 24*5
15 39*0
l S SV7
15 31-5
15 46-8
16 2*6
56 27*0
57 20-3
58 17*7
56 52-9
57.48-7
58 46-8
25
26
27
152 8 28*7
153 6 24*1
154 4 20-9
0-18
0*25
0*29
0*0044447
•0043459
•OO42463
13 43 9*28
13 39 13*37
'3 35 17*47
16 10*4
16 24*7
16 36*2
16 17-8
16 30*9
16 40-3
59 I5 # 3
60 7*8
60 49*7
59 4*'5
60 30*5
61 5-0
28
29
30
3i
155 2 19*1
156 i8*9
156 58 20*3
157 56 23-4:
0*30
0*27
0*20
S.o'io
0*0041460
•0040453
•OO39441
•0038422
13 31 21*56
13 27 25*65
13 23 29*75
13 19 33*84
16 43-3
16 45*2
16 41*6
16 33*2
16 44-9
16 44*0
16 37-9
16 27*6
? IS 'S
6l 22*6 (
61 9*6
60 38*9
61 21*7
61 18-5
60 56*2
60 18-3
"
158 54 28-5
S.0'02
0*0037398
*3 *5 37'93
l6 21*2
16 14*3
59 54*9
59 29" 7
Digitized by VjOC
O
IV.
AUGUST, 1882.
13
MEAN TIME.
4
a
9
*•
THE MOON'S
1
I
2
3
O I ♦
336 4 6-7
3Si 3 4-8
S 4« 3'9
1 *
343 34 S2'5
358 27 44-6
J 3 3 *5'5
O I H
N.4 57 55-5
4 35 i3'7
3 54 *S' 3
1 *
N.4 49 i*6
4 16 52-7
3 *8 25-5
d
I7'2
l8-2
19*2
h m
14 I5'0
15 8-4
16 i*3
h m
1 48-0
2 41*8
3 34-8
4
i
20 13 24*1
34 18 23-4
47 S 6 5*'8
27 17 45-1
41 9 22-5
54 39 9'6
2 59 24-6
1 54 42-9
N. 45 ci
2 27 58-4
1 20 12*4
N.o 9 37-4
20*2
21*2
22*2
16 54-4
17 48-0
18 41*9
4 *7'8
5 21-2
6 14-9
I
9
61 16 31*5
74 17 55-8
87 3 58-5
67 49 19-7
80 42 41*7
93 « 5'5
S. 25 26*8
1 32 54- 3
2 34 14-5
S. 59 45-6
2 4 30-7
3 * 47*7
23*2
24*2
25'2
19 35-6
20 28*6
21 20*0
III
8 54-5
10
11
12
99 37 *°'7
112 15*8
124 T4 26 '6
105 49 59-6
118 8 21-5
130 18 40-3
3 * 6 54*3
4 8 54-4
4 38 48-3
3 49 20-5
4 25 26*2
4 48 54*9
26*2
27-2
28*2
22 9*3
22 5O-4
23 41-4
9 44'9
10 33*2
11 19-2
13
H
15
136 21 io*7
148 21 33*2
160 16 42*9
142 22 5*7
154 19 42-3
166 12 46*6
4 55 4*'6
4 59 »7'o
4 49 4i*3
4 59 9'9
4 56 6'2
4 40 8*o
29*2
i-6
* *
24*6
1 6-6
12 3-2
12 45-7
13 27-3
16
18
172 8 7*3
183 57 47-3
195 48 24-0
178 3 1-3
189 52 46*9
201 45 8' 1
4 27 33*i
3 53 52*9
3 9 59'^
4 i& 5*o
3 33 7*2
2 44 41*1
2-6
3.6
4-6
1 48*0
2 29-5
3 "'9
14 8-7
14 50-5
15 33 '6,
19
20
21
207 43 27*6
219 47 7-8
232 4 I2'0
213 43 55-8
225 53 40 '6
238 19 20*5
2 17 26'I
1 18 2*4
S. 13 53-9
1 48 28*2
S. 46 25-1
N.o 19 12 *o
5-6
6-6
7-6
3 55-8
4 4i'9
5 30*6
16 18 • 5'
17 5-9
17 56-1
22
23
24
*44 39 44*2
257 38 39-2
27I 5 2*0
251 5 59-2
264 18 12 *6
277 59 21-9
N.o 52 31-4
1 58 15-3
2 59 44'5
1 25 41*0
2 29 46*5
3 27 373
8-6
10*6
6 22*2
7 l6 *4
8 126
18 49 '0
19 44'3
20 41-2
*5
26
27
285 I l6*5
299 27 6* i
314 18 47-1
292 10 38*2
306 50 5-5
321 52 8*5
3 52 51-5
4 33 9'3
4 56 20'I
4 H 53' 2
447 9-2
5 392
u-6
I2'6
13*6
9 9'9
10 7'2
11 3-9
21 38-6
22 35*6
23 31-9
28
29
30
3«
329 28 56*2
344 47 i7'9
2 26-4
15 3 51-0
337 7 48-1
352 25 58 5
7 35 *5'7
22 26 49' 1
4 59 35*3
4 41 27*8
4 3 20' I
3 » 44*8
4 53 99
4 *4 43'4
3 37 48-6
2 36 48*8
14*6
15-6
i6-6
17*6
n 59-7
12 54-9
13 49'9
14 44-9
* *
27-4
1 22-4
2 17-4
32
29 43 40-2
36 53 58-1
N. 2 2 42*2
N. 1 27 6-4
186
15 40-3
3 I2"6
Digitize
1
K
13
Z
AUl
lUZ
>tj
, 1882.
V.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
o
33
Bight
Ascension.
in io».
Declination.
Var.
inio-.
i
Kight
Ascension.
Var.
in to - .
Declination.
Var.
inio".
Tuesday i.
Thubsday 3.
h m ■ 8
/ * »
h n 1 ■
i »
2224 3*05
22 2623*88
13-482
S. 440 15-9
131-93
015 4-59
22*926
"■IST!
126-33
I
23-461
427 3*6
132*18
I
1722*14
22*923
125*87
2
22 2844*58
23-441
41349-8
132*42
2
19 39*67
22*922
6 1840*3
125-39
3
2231 5-17
23*422
4 34*6
132-63
3
021 57-20
22*920
63I 11*2
124*89
4
223325-65
23-403
34718*2
132*83
4
024 14*71
22*918
64339*0
124-38
5
22 35 46*00
*3-383
3 34 °* 6
133-02
5
026 32*22
22*918
656 3*8
123-87
6
2238 6*25
23*366
3 2042*0
133*18
6
02849-73
22*918
7 8254
123-33
7
22 4026*39
23*347
3 7 22 '4
'33*33
1
031 7*24
22*918
72043-7
7 32 58*8
122*78
8
224246*41
23*329
2 54 2*0
'33*47
03324*74
22*918
122*22
9
2245 6*34
23*3"
24040*7
133-60
9
03542*25
22*9x8
74510-4
I2I-65
10
22 47 26*l6
23-*94
2 27 18*8
133*70
10
03759*75
22*918
757 18*6
121-07
ii
224945*87
23-278
213563
133*78
11
040 17*27
22*920
8 9233
I2O-48
12
2252 5*49
23*262
2 033*4
i33*85
12
04234*79
22*921
. 82124*4
119-88
*3
14
22 5425*01
225644*43
23*245
23*229
1 47 10*1
13346*4
13392
133*96
*3
14
04452-52
047 9*86
22*923
22-925
833219
84515*6
1x9*27
118-63
15
2259 3"76
23-214
I 20 22*6
133-98
15
04927-42
22*928
857 5*5
117-99
16
23 1 23*00
23*199
I 658*7
133*98
16
05144-99
054 2-58
56 20-19
22*930
9 851*5
"7*34
*7
23 342*15
23 6 1*22
23-185
O53348
133*97
17
22*933
92033*6
1x6-68.
18
23-171
40 1 1 '
133*95
18
22*936
932 n*7
xi6*oz
19
23 8 20'2O
23*157
02647*4
13392
19
058 37-81
22939
94345*7
115-32
20
23 1039*10
23*143
13 24*0
i33*87
20
1 055*46
22*943
955i5*5
10 641*1
114*62
21
23 12 57*92
23-130
S. i*o
'33*79
21
1 313*13
22*947
113-92
22
23 15 16*66
23-117
N. 1321*5
N. 02043*4
133*70
22
1 5 30-82
22*951
1018 2'5>
113*21
*3
23 1735*33*3105
133*60
*3
1 748*54
22*956
N.1029 19*6;
112*48
Wedhesi
>AY 2.
Feida
T 4.
231953*92
23-093
N. 040 4*7
133*48
oiio 6*29 22-960
N.1040 32*2
iii*73
i
23 22 12*44
23*082
05325*2
133*35
I
1 12 24*06
22-965
1051 40*4
110*98
2
23 24 30*90
23*071
1 644*9
133*21
2
11441-87
22*970
II 244*0
110*22
3
23 2649-29
23*060
120 3*7
133-04
3
1 16 59-70
22*974
II I343*o
109*45
4
2329 7*62
23*050
1 3321*4
1 46 38*0
132-86
4
11917*56
22*980
11 24 374
108*67
5
233125*89
23*040
132*67
5
12135*46
22*986
11 35 27-0
107*88
6
233344*10
23-030
1 59 535
132*47
6
12553*39
1 26 11*36
22*992
11 46 ii*9
107-08
i
2336 2*25
23*021
2 13 7*6
2 2620*4
132*24
7
22*998
11 56 52*0
106*28
23 38 20*35
23*012
132*02
8
1 28 29*36
23-003
12 727-2
105*46
9
2340 38*40
23-004
23931*8
131*77
9
13047*40
23-010
121757*5
104*63
10
23 42 56*40
22-996
2 52 41*6
131*49
10
133 5*48
23-016
12 28 22*7
103*78
ii
23 45 "4*35
22*988
3 549*7
131*22
11
13523*59
23-022
12 3842*9
102 * 94
12
2347 32*26
22*982
3 18 56*2
130*93
12
13741*75
23*029
1248 58-0
102*08
»3
234950*13
22*975
3 32 0*9
130*63
13
139 59*94
23*036
1259 7*9
101*22
14
2352 7*96
22*968
345 3'7
130-30
H
142 18-18
23-043
13 912*7
100*35
15
23 54 25*75
22*962
3 58 4*5
129-97
15
14436*45
23-049
13 19 12*1
99-46
16
235643*50
22*957
411 3-3
129*62
16
14654*77
23-057
13 29 6*2
133855*0
98-58
l 7
2359 1*23
22*952
423 59*9
43654*4
129*26
17
M9i3*i3
23*063
97*68
iS
1 18*92
22*947
128*88
18
15131*53
15349*98
156 8-47
23*071
134838*3
96*77
*9
336-59
12-942
44946*5
128-48
19
23*078
13 58 162
95*86
20
5 54*23
22-938
5 236*2
128-08
20
23-085
14 748*6
94*93
21
811*85
22*935
51523*5
528 8*3
127*67
21
1 58 27*00
23-092
141715*4
93*99
22
1029*45
22*932
127*25
22
2 045*58
23-100
142636*5
93*05
I* 3
12 47*03
22*928
54050*5
126*80
23
2 3 4*20
23-107
143552*0
92-11
J|24 015 4*59
22*926
N. 5 53 29*9
126*33
24
2 5 22*86
23*114
N.I445 i-8
91*15
Digitized by
o
VI.
AUGUST, 1 88*.
i33
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
9
10
11
12
13
14
:?
;i
19
20
21
22
23
*4
Right
Ascension.
Vir.
in 10-.
Declination.
Var.
in io».
»
h m s
2 522*86
2 741*57
2 10 O a 32
2 12 I9-II
» I4 37'95
2 1656
2 1915
2 2I34-73
2 23 5374
2 26 12*79
22831*88
2 3051*02
2 33 10*19
23520*41
2 3748*66
240 7*95
242 27*28
24446*65
247 6*05
2 49 25 48
25144*95
a 54 4 '45
25623*98
25843*54
Saturday 5.
o / *
N.1445 I*
s
23*111
23*118
13-136
23*143
13*151
23-158
23-165
23-172
13*178
13*186
13*193
13*199
13*106
13*111
13*118
13115
13-131
13-136
23*242
»3**47
23*251
23257
H54 5*
IS 3 4*
151156-
152042*
152923*
15 37 57"
154626-
155448-
16 3 5*
16 11 15-
16 19 19*
1627 1
1635
16 42 54
165033
1658 5
17 531-
17 12 51*
1720 5*
1727 ii-
173412-
. .. -741 5*
i 3 *i6iN.i747 53-
SUHDAY 6.
*
9115
90*18
89*11
88*14
87*15
86 15
85-15
84-15
83*14
81-11
81*18
80*15
79*11
78*08
77*01
75*96
74*90
9 73-83
72*76
71*68
70-59
69*51
68*41
67*31
I 1720*90
( 1940*66
1 313
3 2275
54*'39
8 2*05
3 1021*73
31241*44
315 i' 16
3 1720
3
322 0*43
3 2420*21
3 2640-00
32859*80
3 31 19*61
3 33 39*41
3355922
33819*03
34038*83
3425863
34518-42
3473820
3 49 57*97
35217-72
3 54 37-46
35657*18
23*167
13*171
13*175
23-178
23*181
13-186
13*188
13*191
13*194
13*196
13*198
13*199
13*301
13*301
13*301
13-30*
13*301
13-300
13-199
23-298
23*296
23*293
23*191
13*188
13*185
N.175433
18 1 7
18 734-
181355*
1820 9-
182616*
18 32 16*
183810*
I8 43 57-
184937-
18 55 io*
19 036*
19 5 55'
19 11 8*
19 16 13'
1921 12*
1926 V
193048'
I9 35 25-
193956-
194420-
1948 36*
195246-
195648*
N.20 044*
66*11
65*10
63*99
61-87
61-75
60*62
59-49
58-37
57*3
56*08
54*94
53*79
52*64
51-49
50*33
49-i8
48-02
46-85
45*68
44*5*
43*35
42*18
41*00
39-83
38-64
Right
Ascension.
Var.
in 10".
Declination.
MoiTDAY 7.
h m s
35657*18
3 59 16*88
4 I36-55
4 356-20
4 615-81
4 8 35-40
41054-95
4 13 H-46
41533-9:
4I7 53-3
420 12*74
422 32*07
4H5I-35
427 10*58
42929-75
43148*86
4 34 TV
43626-89
43845*80
441 4-64
44323*41
44542-10
448 0*72
45019*25
t 1*
23*185 N.20 044*0
13*181
13*177
13-271
13*167
13*161
*3*55
13-148
23*242
13*134
13*116
13*218
13*109
13*100
13-190
13-180
13-169
13*158
13*146
*3'i34
13*111
13*109
13*096
20 432-
20 8 13*
20 11 47-8
20 15 14*9
20 18 34*9
2021 47*8
202453*6
202752*3
203044-0
2033 28*5
2030 5-9
2038 36*2
204059-4
204315*5
204524*5
204726*4
204921-2
2051 8-9
205249-5
20 54 23 * 1
205549*6
20 57 9"°
23-081^205821*4
Tuesday 8.
45237*69
45456-04
45714*30
4 59 32-47
5 1 59/54
5 4 !' 5 o
5 626-38
5 844*14
511 1*79
51319*34
51536*77
51754-08
5 20 11*27
5222834
52445-28
527 2*IO
52918*79
5 3*35-34
35I*76
536 8*04
13*066
5 33
53824-18
54040*17
542 56*02
54511*72
54727-27
23*051
13*036
13*010
13*003
11-987
22*969
12*951
21*933
11*915
22*895
22 875
11 855
11*834
11*813
11*791
11*770
22*747
12*715
22*702
21*678
22*653
22*629
21*604
N.20 59 26*8
21 025*I
i 16*4
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
20 5
2 o-8
238*1
3 8-4
331-8
348-2
357*6
4 0'2
3 55'?
344*6
326-5
3 1*6
2 29*8
151-3
1 59
o 13*8
150
2058 9*4
205657-1
2055 38-2
2054 I2'6
205240*4
11 -5781*1.2051 i-6
Digitized by
Googk
134
AUGUST, 1882.
VII.
1
MEAN TIME.
1
~SION AND DECLINATION.
1
Bight
Ascension.
Var.
in io".
Declination.
Var.
in io".
FbIDAY II.
h m s t
t » ft
7 32 18*32
21*026
N.1733 29*6
62*87
I
7 34 24-37
20*990
1727 IO*0
6365
2
7 36 30*20
20-953
172045*8
64*43
3
73835*81
20*917
17 14 168
65*22
4
74041*21
20-882
17 743*2
65*98
5
74246*39
20-846
17 1 5*1
66-73
6
74451-36
20-810
165422-467*49
7
74656*11
20*774
i64735-2|68*23
8
7 49 o* 6 5
20-738
16 40 43*6, 68*97
9
75 1 4'97
20*703
163347-669-70
16 2647-2,70*42
10
6 953*92
612 705
22*303
2028 37-4
27*71
10
7 53 9*o8
20*667
II
22*274
202548*0
28*76
II
75512-97
20*631
16 1942*6
7i*i3
12
6 1421*21
22-245
2022 52*3
*9'79
12
75716*65
20*596
l6 12 33'6
71*85
*3
61634.59
22*215
20 1950-5
30*82
13
7 59 20*12
20*560
l6 5 20*4
7**54
14
61847-79
22*184
20 1642*5
31*84
14
8 123*37
8 3 28*42
20*525
1558 3*1
73**3
If
621 o*8o
22*153
20 13 28-4
32*86
IS
20*490
155041*6
73*93
623 13*63
625 26-27
22*122
20 10 8*2
33-87
16
8 529-25
20*454
1543 160
74 60
*7
22'09I
20 641*9
3488
17
8 731-87
20*419
153546-4
75**7
18
627 38*72
22' 060
20 3 9-6
35-88
18
8 934-28
20-384
1528 12-8
75*93
*9
62950*99
22*028
195931*3
36*88
19
8 11 36*48
20-350
152035-5
15 12 538
7658
20
632 3- 06
21*996
195547*0
37*87
20
8133848
20-315
77**3
21
6 3626*62
21*963
19 51 56-8
38*85
21
8 1540-26
20*280
15 5 8*5
77 87
22
21*931
1948 o-8
39*82
22
8 1741*84
20*246
145719-4
78-50
23
6 38 38*11 21*898
N.i 9 43 58*9
40-80
*3
8 1943*21
20*212
N.14 4926*5179-12
Thubsdj
lY IO.
Satdbd
AY ll\
64049*40
21*865
N.19 39 51*2
4^77
821 44*38 20*178
N.1441 299
79*74
I
643 0*49
21*832
193537*7
19 31 18*6
42-72
I
82345*35
20*144
143329*6
80-34
2
645 11*38
21*798
43-67
2
8 2546*11
20'MO
1425258
1417.18*3
80*94
3
64722*07
2 1 * 765
192653*7
44-62
3
8 2746-67
20*077
81*54
4
64932*56
21*731
1922 23*1
45 5*3
4
82947-03
20*044
H 9 7*3
14 052*8
82*13
5
651 42*84
21*697
191747*0
46-48
5
8 31 47*20
20*011
82*70
6
65352*92
656 2*79
21*663
19 13 5*3
19 8 i8*i
47*41
6
83347-1°"
I9*978
135234-9
83-27
1
21-628
48-33
7
83546*93
I9'945
1344^3*5
83*84
6 58 12*46
21-593
19 325-3
185827-2
49-24
8
83746*50
I9-9I2
133548-8
84*39
9
7 021*91
21*558
50*14
9
83945*87
I9879
13 2720-8
131849-5
84-94
10
7 231*16
21*523
18 53 23-6
1848 14*6
51*05
10
84145*05
19-847
85-48
11
7 4 40-19
21*488
51*93
11
84344-04
I9816
13 10 15*1
86-oi
12
7 6 49 - 02
21*454
1843 0*4
52-81
12
84542*84
19-784
13 137-4
86-54
'3
7 8 57^4
21*418
1837409
53^9
'3
84741-45
19-753
12 52 56-6
87-05
H
7 11 6-04
21*383
18 32 i6-i
54*57
14
84939-88
I9'722
I244 12*8
87-56
•5
71314*23
21*348
18 2646*1
55*43
IS
851 38*12
19*691
123525-9
88-07
16
7 15 22*21
21*313
18 21 II'O
56*28
16
85336*17
I9'66l
12 2635-9
88-57
:i
71729*98
21-277
18 15 30-7
57*»3
\l
85534-05
19-631
121743-1
89-05
719 3773
21*240
18 945*4
57-97
85731*74
I9'6oO
12 847*3
89*53
19
7 21 44-86
21*204
18 355*i
58-80
19
8592925
I9-570
115948*7
90*00
20
7235I-08
72558*89
728 5*58
21*169
175759*8
59-63
20
9 126-58
19541
115047*3
90-47
21
21*133
I7SI595
60-45
21
9 3 23-74
19*512
114143*1
11 32 36*2
90-93
22
21*098
174554-4
61-26
22
9 520-72
19-483
91*38
*3
7 30 12 *o6
21*062
17 39 44*4
62-07
23
9 7^7*53
19-454
11 23 26*6
9182
24
7 32 18*32
21*026
N.1733 29*6
62*87
24
9 914*17
19*426|
N.n 14 14*4
92-25
Digitized by
u
00
o
VIII.
AUGUST, 1882.
13
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
Right
Ascension.
in io».
Declination.
Var.
in xo m .
i
Right
Ascension.
Var.
in io".
Declination.
Var.
in io"°.
SlJHDAY 13.
Tuesday 15.
tarns 8
/ » V
h m t t
1 t *
O
9 9H-J7
19-426
N.11 14 14-4
92*25
O
103952-71
18*490
N. 3i443*5
104*90
I
9 11 10-64
19-398
11 459-6
92*68
I
1041 43*62
18-480
3 4i3' 8
105*00
2
913 694
19-370
105542*2
93*n
2
1043 34*47
18-471
25343*5
105-10
3
915 3-08
19*343
104622-3
93*52
3
10452527
18*463
2 43 12*6.105-19
4
9 16 59-06
19-316
1037 o-o
93*93
4
1047 16*02
18-454
2 3241-2 105-27
5
91854-87
19-289
1027 35*2
1018 8*1
94*33
5
1049 6-72
18/446
222 9 , 4ji°5*33
6
92050-53
19*263
94*7*
6.105057-37
7 105247-98
18*438
2 11 37*2 105*41
1
92246*02
19-236
10 838-6
95-n
18*432
2 I 4-5105*48
92441-36
19*211
959 6 '1
95*48
8 105438-56
18*426
i50 3i-5!io5*53
9
92636-55
19-185
94932-8
95*85
9 1056 29-09
18-419
1 3958-2105*57
10
92831-58
19-160
93956*6
96*21
10 '1058 19-59
18-413
12024-7
I 18 50-9
105-61
11
9 3026-47
19-136
930 18*3
96*57
11 In 010*05
18*408
105*65
12
9 32 2I'2I
19*112
92037-8
96*92
12 11 2 0-49
18-404
I 816-9
105-68
*3
93415-81
19-088
91055-3
97*26
13:11 350*90
18*400
05742-7
105*70
14
9 36 10-26
19*063
9 1 10-7
8 51 24-1
97-60
14
II 541-29
18*396
047 8-5
105*72
15
9 38 4*57
93958-74
19-040
97*93
15
II 731*65
18-393
3634*1
105*73
16
19-017
841 356
98*24
16
II 922-00
18*390
02559-7
105-74
17
94152-77
18-994
83145-2
98-56
17
11 n 12*33
n 13 2*64
18*387
15 25-2
105-74
18
94346-67
18*972
8 21 52*9
98-86
18
18*385
N. 450-8
105*73
19
94540-44
18*951
8 11 58-9
99*16
19
11 i4 5 2 *95
18*384
S. 543*5
105*72
20
94734-08
18*929
8 2 3-0
99*46
20
11 1643*25
18-383
16 17-8
105-70
21
94927-59
18-908
7 52 5*4
99*74
21
111833*55
18-383
2651-9
105*68
22
95120-97
18*887
742 6-i
100*02
22
11 2023*85
18*382
03725-9
105-64
23
9531423
18-867
N. 7 32 5-2
100*29
23
11 22 14*14
18-382
S. 04759-6
105*60
ffloHDA
T 14.
Wedhesi
>AY l6.
O
9SS 737
18-847
N. 722 2-6
100-56
11 24 4*44
18*383
S. 05833*1
1 9 6-3
105*56
I
9 57 0-39
18-827
71158-5
100*82
I
112554-74
n 2745-06
112935-38
18-385
105-51
2
3
95853-20
10 046*08
18*808
18*789
7 152*8
^5145-7
101*07
101-31
2
3
18-387
18*388
1 19 39*2
1 30 n-8
105*46
105*40
4
10 238-76
18-771
64137*1
101*55
4
113125-72
18-392
14044-0105*33
5
10 43*'33
10 623-80
10 8 16-16
i8'753
6 31 27*1
101-78
5
11 33 16-08
18-395
151 15-7 105-25
6
18-736
621 15-8
102* OO
6
11 35 6-46
18*398
2 147-0105-17
2
18-718
611 3-1
I02 '22
7
113656-86
18*402
2 12 17-8105*08
10 10 8*41
18-701
6 049*1
102*43
8
113847-29
18*407
2 22 48*0 104*99
9J1012 0-57
18-685
55033*9
I02*63
9
114037-75
18*412
233 17-7104*90
10 10 13 52*63
18-669
540 17*5
I02*83
10
n 42 28*24
18*417
2 43 46-8 io 4 - 79
11 no 15 44 '60
18-653
52959-9
I03*02
n
1144 18-76
18*423
2 54 15-2 104-68
12 jIO 17 36*47
18-638
51941-2
103*21
12
11 46 9-32
18*430
3 4 43*° I0 4*57
13 10 1928*25
18*623
5 9«i'4
103*38
13
114759-92
18-437
3 15 10*0104*44
14
1021 19*95
18-610
459 o-6
44838*8
I03-55
H
114950-56
18-444
32536-3104*32
15
1023 1 1*57
18-596
103-72
15
115141*25
18-452
336 1-8104*18
16
1025 3-10
18-582
4 38 i6*o
I03-88
16
115331-99
18*460
34626-4104-03
17
102654-55
18-569
42752-3
104-03
17
115522*77
18-468
3 5650*2
103-89
18
1028 45*93
18-557
41727*7
I04*l8
18
115713-61
18-478
4 713* 1
103-73
19
103037-23
1032 28*46
18-544
4 7 22
104*32
19
n 59 4-51
18*488
41735*0103*58
20
18*532
35635-9
104*44
20
12 055-46
18*498
42756-0103*41
21
10 34 19-62
18*521
346 8-9
104-57
21
12 246*48
18*509
43815*9103*23
22
10 36 10-71
18-510
335 4i'i
104*69
22
12 4 37*57
12 628-72
18*520
44834-8103*07
*3
1038 1-74
18*500
3 25 12*6
104*80
23
18-531
458 52*7!i02*88
24
103952*7118-490
N. 3*443*5
104'90
24
12 8 19*94
18-543
S. 5 9 9-4'io2-6 9
Digitized by
Googk
»3«
5
AUG
US']
l\
1882.
IX.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
Right
Ascension.
Vw.
in io".
Declination.
Var.
in io".
i
Right
Ascension.
in io".
Declination.
Yar.
in io*.
Thursday 17.
Satubday 19.
h m ■ S
* • •
brat ■
/ «r *
O
12 8 19*94
18-543
S. 5 9 9-4102*69
O
133935-62
19*652
S. 12 48 26-6 86*22 [
I
12 10 II"24
18-556
51925*0
102*49
I
134133*63
19*685
1257 24
85*7*
2
12 12 2'6l
18*568
52939-3
102*29
2
134331*84
19-719
'3 5 35-2
85*21
3
12 13 54*06
18*582
S 39 5*5
102*09
3
134530*26
'9'754
13 14 4-9
84-68
4
121545-59
18-596
5 50 4*4
101*87
4
134728*89
19-788
132231-4
84*16
5
12 1737*21
x8-6ix
6 014-9
101*64
5
134927*72
19-823
133054-8:83-63
6
12 1928-92
18-625
6 1024*1
101*42
6
135126*77
19-859
133914*9 *3'° 8
1
12 21 20*71
18*640
62032*0
X0I*20
7
135326-03
19-894
134731-8! 82*54
12 23 I2'60
18-656
63038-5
100-96
8
135525-50
19-930
I3 55 45-4.8I-98
9
12 25 4-58
18672
64043-5
100*71
9
135725-19
19-967
14 3 55'Mi-4*
10
12 26 56-67
18*689
65047-0
100*46
[0
135925-10
20*003
14 12 2'5!8o*86
11
I2284885
18-706
7 049'°
100*20
11
14 12523
20-041
14 20 5'9!8o a 28
12
12 3041-14
18-724
71049*4
99*93
12
14 325-59
20-078
1428 5*9
79-7o
13
I2323V54
123426-04
18-741
72048*2
99*67
13
14 526-17
14 726-98
20*Xl6
1436 2*3
79* xi
14
18-760
7 3° 45*4
99-4o
*4
20-151
H43 55-2
78*52
15
12 36 18-66x8-779
74041-0
99*12
15
14 928*01
20*192
145144-5
77*9*
16
12 38 ii'39
18-798
8 0268
98-82
16
14 II 29*28
20-231
145930*2
77-30
l 7
1240 4*24
18-818
98-53
17
141330-78
20*270
15 712*1
76*67
18
1241 57-21
18-838
8 1017-1
98*23
18
141532-52
20-310
151450-3
76-05
'9
124350-30
18-859
820 5-6
97*92
*9
141734-50
20*349
152224*7
75*4*
20
124543-52
124736-87
18-881
8 29 52-2
97*61
20
14193671
20-388
152955-3
74-78
21
18-903
839369
97-29
21
142139-16
20*429
153722-0
74*13
22
124930-35
18-925
84919-7
96-97
22
142341-8620*470
154444*9
73-47
*3
125123-9718-947
S. 859 05
96*63
23
i4 25 44*8o;2o*5io
S.1552 3*7
72*80
Fbidai
I 18.
SUHDAI
r 20.
1253 i7 # 7 2 | l8, 97o
S. 9 8 39'3 96*30
0:14 2747*98120*551
S. 15 5918-5
16 629*3
72*13
1
1255 II-6l|i8- 9 93
9 18 16* j
95'95
I
142951-4120-593
71-45
2
i 2 57 S'^^'o^
92750-7
95-60
2
1431 55" 9 ao6 34
161335*9
70*76
3
12 58 59*82
19-042
93723-3
95**5
3
14 33 59-0220-676
1620 38*4
70*07
4
13 054-15
19-067
94653*7
94-88
4
1436 3*2o'20'7x8
1627 3&'%
69-37
5
13 248*63
19-092
95621-9
94*51
5
1438 7-6320-760
163430*9
68*66
6
13 443'* 6
19-117
10 547-8
94-13
6
1440 I2"32!20-803
1641 20-7
67-94
7
13 638-04
19-143
10 15 11-5
93'75
7
1442 I7-26J20-845
1648 6-2
67*22
8
13 832-98
19-171
102432*8
93-36
8
1444 22-4620-888
165447-3
66-48
9
13 1028*09
19-198
10 3351-8
92*97
9
144627-9220-931
17 124-0
17 756*2
65-74
10
13 12 23-36
19-225
1043 8-4
92 56
10
i4 48 33-63 ! 2o-974
64*99
l n
131418-79
19-253
IO52 22'5
92-15
11
14 50 39-6i'2i-oi8
171423*9
64-23
12
13 1614-39
19*281
II 134*2
9i'74
12
14 52 45-85j2i-o62
172047*0
63*47
*3
13 18 io-i6
19*309
II 1043-4
91*32
13
i4 54 5-*-35. aI --05
1727 5-5
62-70
14
13 20 6* 10
19*338
II 1950*0
90-88
14
I4 56 59-U.2X-I49
173319*4
17 3928-6
61-92
15
13 22 2*22
19-368
11 28 54-0
90*45
15
1459 6*I4j2i*i93
6x*i3
16
132358-52
19-398
"37 55*4
90-01
16
15 113*4321*238
174533*0
60-33
17
I3 25 55-00
19-428
11 4654*1
89-56
17
15 3 20-99'2i*283
1751 32*6
59'53
18
13 2751-66
19*459
115550-1
89*10
18
15 5 28-82J2l*327
175727-4
58-72
*9
132948-51
19*491
" 443*3
88-63
19
15 7 36*91 21-371
18 317*3
57-90
20
133145-55
19-522
121333-7
88-17
20
15 945* 2 7 2I, 4-6
18 9 2*2
57-o7
21
I33342-77
•9-553
12 22 21*3
87-69
21
15 n 53-9021-460
18 1442*1
56-23
22
I3 35 40-I9
19-587
1231 6-o
87-21
22
15 14 2* 79 21-505
15 16 11*9621-550
18 20 17*0
55*39
23
I3 37 37-8I
19619
123947-8
S. 1248 26-6
86-72
2 3
182546-8
54*53
24
133935-6219-652
86-2?
24
15 I8 2I-39J2I-595
S.1831 n*4
53-68
Digitized by
Googk
AUGUST, 1882.
13
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
m t
Declination.
in io*».
i
a
Right
Ascension.
-far.
in io".
Declination.
Var.
inio-
Monday 21.
Wedhisday 23.
b m 8 t
9 » 9
h m 8 s
t 9 9
O
15 1821*39
21-595
S.1831 11-4
53-68
17 7 3*67
23*617
S.20 54 57*6
3*4*
I
15 20 31*10
2**640
18 3630*9
52*81
I
17 925*47
23-651
2055 14*4
2'2C
2
15 2241*07
21-685
184145*1
Si'93
2
171147*48
23*685
2055 24-0
0*9?
3
152451*32
21-731
184654*1
51*05
3
17 14 969
23-718
2055 26-2
0*2j
4
1527 1*84
21-776
185157*7
50*16
4
17 16 32*10
23-752
20 55 21*0
1-4*
5
15 29 12*63
21-821
185656*0
49-26
5
171854*71
23-784
2055 8-5
2*71
6
153123*69
21-867
19 148-8
48-34
6
1721 1751
23*817
205448-5
3*95
1
15333503
21*912
19 636*1
47-43
7
172340-51
1726 3-69
23*848
20 5421*1
5-iS
153546-63
21-956
19 II 18*0
46-52
8
23*878
205346*2
6-45
9
153758*50
22*002
191554-3
45-58
9
172827*05
23*908
2053 3*7
7-7C
10
1540 10*65
22*047
192024*9
44-63
10
173050-59
23*938
2052 13*8
8*95
11
154223*06
22*091
192449*9
43-69
11
•7 33H-3 1
173538*21
23*968
2051 16-3
10*22
IS
154435-74
154648*70
22-137
1929 9*2
4* *73
12
*3*997
20 50 II '2
IX-4fi
>3
22*182
1933 22- 7
4-"77
13
1738 2-28
24*025
2048 58*5
12-75
»4
1549 i'9*
22*226
193730*4
40*80
H
174026-51
24-053
20 47 38*2
14-03
if
155115-41
22-271
194132*3
39-82
15
174250-91
24*080
2046 10*2
15* 3c
16
155329*17
22*316
1945 283
38*83
16
I745I5-47
24-106
2044 34*6
16*58
!S
155543*20
22*361
1949 183
37-84
17
174740-18
24*132
2042 51*2
17*87
I5 57 57-50
22-405
1953 2-4
1956404
36-84
18
1750 5-05
»4-»57
2041 0*2
19*15
*9
l6 12-00
22-448
35-83
19
17 52 30-07
24-182
2039 1*4
ao*44
20
l6 2 26*88
22-492
20 012*3
34*81
20
I7 54 55-23
24*205
203654*9
21-73
21
l6 441*97
22*537
20 338*1
20 057-7
33*78
21
175720*53
24*228
20 3440*6
23-03
22
l6 657*32
22-581
3* '75
22
*7 59 45'97
24*252
2032 18*6
H'33
»3
16 9 12*94
22-624
S.20 10 11 *i
3171
23
18 2 11-55
24*274
S.20 29 48 '7
25*63
TUESDA
T 22.
Thubsdj
lY 24.
16 II 28*8121-667
S.20 13 l8'2
30*66
18 437*2624*295
S.2027 II-I
26*92
I
161344*9422-710
16 16 1-3322-753
16 18 I7*o8J22-796
162034*8822-838
20 16 19*0
29*61
I
18 7 3*09
24*316
202425*7
28-23
2
20 19 13-5
28*54
2
18 929*05
•H'337
2021 32*4
*9'5:
3
20 22 I '5
27*48
3
181155*13
24*356
20 l8 31*3
30-81
4
20 24 43*2
2027 15*3
26*40
4
18 1421*32
18 1647*62
H-374
20 15 22*4
32-14
5
1622 52'04J2i-88i
2531
5
24*392
2012 5*6
33 # 4J
6
1625 9'45
22*922
202946*9 24*22
6
18 19 14*03
24*410
20 841*0
34 *7<
1
162727*11
22*963
2032 8*9
23*12
7
18 21 40*54
24*427
20 5 8*5
36*0*
162945*01
23*005
203424-3
2036 33-0
22*01
8
1824 7-15
H'443
20 128-2
37*3!
9
1632 317
23-047
20*90
9
182633-86
*4*459
195740*6
38*6<
10
163421*5723-087
2038 35-1
I9*78
10
1829 0*66
24*474
I95343-9
40- «
11
163640*21 23-127
204030-4
1865
11
183127-55
24*488
194940*0
41*33
12
16385909
1641 l8'2I
23-167
2042 18-9
I7-52
12
183354-52
18 3621-57
24*502
I945 28*2
42-61
»3
23*207
2044 o*6
1638
13
H'515
1941 8*6
43*9:
H
164337-57
23*247
2045354
I5-a3
H
183848-70
24*527
193641*1
45 •*;
:i
164557*17
23*285
2047 3*3
X4*08
15
1841 15*90
*4'539
1932 5*8
46*5<
16 48 16*9923*323
204824-3
12*92
16
184343-17
1846 10*51
*4'55i
19 27 22*6
47-8,
;i
165037*0523*362
204938*3
n-74
17
24561
1922 31*7
49* I,
165257*3323-399
205045*2
io*57
18
184837-90
24-570
I917329
50* 4)
19
165517-8423-437
i6 57 3»-57i*3-473
20 51 45*1
9*40
19
l l 51 S '2I
24-580
19 12 26*3
5i'7;
20
2052 580
8*22
20
1853 32-86
1856 0-41
24-588
19 711*9
53-<x
21
165959*5223-5x0
205323*7
7*02
21
24-596
19 149*8
l8 56 19*9
54'3i
22
17 2 20' 69^3 • 546
20 54 2*2
5*82
22
18 58 28-01 24-604
55 6
23
17 442*0723-582
205433*5
462
*3
19 055*6624*611
l8 5042*2
56 9:
»4
17 7 3-6723-617
S.20 54 57*6
3'4-
24
19 3*3'34,-M-6»7
S. 18 44 56-8
58*1
Digitized by
Googk
38
AUGUST, 1 88*.
XI.
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
I
Right
Ascension.
Var.
1 in io"
Declination.
Var.
inio-
Fbiday
o
I
2
3
4
5
6
i
9
10
ii
12
*4
If
*7
18
19
20
21
22
*3
O
I
2
3
4
1
323-
m t t
3424-617
24*622
24-627
19 - .
19 551*06
19 8 18*81
19 1046*58
191314-38
19 1542*20
19 18 10*04
1920 37*89
1923 5*75
1925 33*62
1928 i*49
19 3029*36
19325723
193525*10
193752*95
1940 2079
194248*62
194516*43
194744-22
195011*99
195239*73
19 55 7*44
195735-12
20 o 2*76
24-631
24-635
24-638
24-641
24-643
24-644
24-645
24-645
24*645
24-645
24-643
24641
H'639
24-637
*4'633
24-630
24*626
24*621
24*616
24-610
24 '604 s.
Saturday
2 30- 37:24-598 S.
4 57'94*4*59*
725-4724*584
952*9524-577
25.
o t 1
84456
839 y
In 2 '
82654
82038-
8 14 14*
8 743'
8 1 4-
75418*
747M'
74023*
7 33 *4'
72558-
71834*
711 3*
7 3*5'
6S5 39
[6 47 47
63947-
6 3140-
623 26*
615 5-
6 6 37-
558 2
26.
20 12 20-39124-569
201447*78124-561
2017 15*1224-553
7 201942*4124-544
82022 9*6524*535
9 I2024 36-83 ! 24'525
to
n
[2
'3
■4
15
16
'7
t8
<9
to
:i
12
'3
2027 3-95
24-515
2029 31*01 24-505
20 31 58*0124-495
203424-9524*484
20 36 51-8224-473
2039 18*6324-463
204145*3724-452
2044 12*0524-440
204038*65124*428
2049 5* 18*4-41*
20 51 3I-64I24-404
2053 58*03124-392
205624-3424-379
2058 50-58 ! 24'367
1421 1 i6-74|24- 3 54
n
58-21
59*49
60-77
62*04
63-32
64-58
65-84
67-10
68-36
69*60
70-84
72-08
73-32
74*54
75-76
76-97
7817
79' 37
80*56
81*75
82-93
84-09
85-26
86-40
54920-
54031*
53136-
52234*
51325*
5 4 9'
4 5447'
445 '9'
4 35 44'
[426 3*
16 15*
621*
^5621*
34615*
336 3*
3*545'
31521*
3 4 5J'
25416-
2 43 34'
2 3248'
22155*
21057*
159 54'
14846-
87*54
88-68
89-81
90*92
92*02
93-12
94-21
95-28
96-35
97*4-
98-46
99*49
100-51
101*52
102*52
3|io3- 5 i
3104-48
5 I0 5*44
o'xo6-39
8|io7*33
0108-27
6 109*18
8'no*o8
7 110-96
3111-83
Right
Ascension.
Var.
inio-».
Decimation.
Tar.
in io**.
SUHDAT 27.
h m s
21 i 16*74
21 6 8-84
21 834-77
21 II 0'62
21 13 26*40
21 1552*09
21 l8 17*71
21 2043*25
21 23 8*71
125 34*09
12759*39
I 3024*61
t
*4*354
24*342
24-328
•"4*315
24-302
24*289
24*»7-S
24*263
24-250
24*237
24*223
24*2x0
24-197
24-183
24*170
*4*'57
24*144
24-132
24*118
24-104
24*092
24*079
24*067
24-053
s.
21 25 34*09
21 27 59* 29
213249*75
21 35 14*81
213739*79
2140 4*69
21 42 29*52
214454*27
21471893
214943*52
21 52 8-03
215432-47
21 5656-83
Hobday
21 59 2I-Il|i4'04i S.
22 145*3224*028
22 4 9*4524*0x6
22 633*5124*004
22 857*5023*993
22 II 21*4223*981
221345*2723*969
22 IO 9'05'23*958
22 18 32* 7&23*947
22 2056*4123-936
2223 19*9923-9*4
222543-5023*913
2228 6*95 ! 23'9o3
223030-34123-893
22 32 53*6723-883
2235 16*9323*873
22 3740*1423*863
2240 3*2923-854
2242 26*3923*846
22 44 49*44J23*837
2247 I2*43!23'828
"49 35'37! a 3-8i 9
22 51 58*2623-8x1
22 54 2I*I0'23*803
22 56 43*89|23-795'S. 13953-5
o /
S.i 1 48
11 37
11 26
11 14
11 3
10 51
1040
1028
10 16
10 4
952
940
928
9 16
4
839
827
8 14
8 2
749
736
724
711
28.
658
645
632
6 19
6 6
5 53
540
5*7
5H
5 I
448
4 34
421
4 8
3 54
3 4i
3*7
3H
3 «
247
234
220
2 6
»53
139
46-3
32-7
13-9
50- 1
213
47'7
I' 3
26*2
38-4
46'2
49*5
48-5
43-2
338
20*2
2-7
41-4
l6'2
47'3
14*8
38*8
s 21
16*8
30*8
41-8
54'8
57-0
56-5
5y t
47-8
39'7
29*4
16*8
2*1
45 '4
26-8
6*4
44-4
20-7
55*6
29-0
1*2
32-3
2-3
31*3
59'4
26-8
11-83
12*70
13*55
14*38
15*20
16*00
16-79
17-58
18-33
19-08
19*81
20*53
21*23
21*92
22*59
2323
2387
2451
2512
25-71
26*28
26-83
*7*39
27*92
28-42
28-92
29*40
29-86
30-30
30*73
31-14
31*53
31-91
32*28
32*62
3* '94
33*5
33*53
33*81
34*07
34*3*
34*53
34*73
34*9'
35* 08
35 *H
35 38
35*49
35*59
Digitized by
Google
XII.
AUGUST, 1882.
139
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Right
Ascension.
Var.
in 10*.
Declination.
Var.
in io».
Tuesday 29.
9
10
11
12
l i
H
15
16
'9
20
21
22
*3
h m • ■
22 56 43* 8923*7958.
22 59 6*64
23 I2935
23 3 52*01
23 614*63
23 837*21
23 10 59*76
23 13 22-27
*3 15 4475
23 18 7*19
23 2029*60
23 22 51*98
2325 14*34
23 27 36*67
232958-97
23 32 21*25
*3 3443*51
*3 37 5*75
233927*97
2341 50*18
234412*37
234634-55
234856*71
23 51 18*
23*788
23-781
23-773
23*767
23*761
*3'755
23*749
*3'743
23*738
*3'733
23-728
23*724
23719
23*715
23*712
23*708
23*705
23*703
23*700
23*698
23*695
23*693
23*692
N.
O I »
139 535
1 26 19*7
1 1245*5
o 59 10*9
045 36-0
032 i*i
o 18 26*1
o 451*2
843-5
022 17-9
03551*9
04925*5
1 258*4
1 16 30-7
1 30 2*1
I43 32'7
157 2*2
2 IO 30-6
22357-9
2 372V8
2 50 48 *
3 4ii*4
3 1732*8
33052-5
1
'35*59
135*67
w 35 # 73
*35*79
135*82
135-82
13582
135*80
135*76
135*70
135*63
135*54
135*43
i35*3i
135*17
135*01
X34"83
134-64
134*43
134*20
133*97
i33'7i
'33*43
133*13
Wbdhbbday 30.
I.
235341*01
1 2356 3-15
2 23 58 25 # 28
o 04741
o 3 9'54
o 5 3 I-6 7
o 7 53*79
o 10 15-92
O 12 38-05
15 0*19
o 1722*33
OI944-48
22 6*64
02428*81
o 26 50*99
O29 13-18
9
10
II
12
13
H
;§
w
19
20
21
22
23
03135*3!
33 57*6(
o 36 19*83
03842*09
041 4*36
043 26*04
04548*95
048 11*28
05033*63!:
23-690
23*689
23*688
23-688
23*688
23-688
23-688
23*688
23-689
23*690
23-691
23*692
23*694
23*696
23-698
23-699
23*702
23-704
23*707
23*711
23-713
23-716
23-720
23723
N- 344 10-4132*82
35726*4
4 1040-4
423 523
437 a' 1
4 5o 9*5
5 3 14*6
5 16 17*2
52917*2
5 4aH-5
555 9 1
6 8 0-9
62049-7
■53335-5
64618*1
65857-
71133-
72A 6-
73635-8
749 i-|
8 1236
8 13 42-0
825566
838 7*2
N. 85013*9
Right
Ascension.
Var.
into"
Declination.
Var.
inio"
Thursday
h m s
o 50 33-63
O 52 J6*00
05518*39
05740*81
o 3-25
2 25*72
44§'2I
710*75
933*28
1155*85
1418*45
1641*07
19 3*73
21 26-41
2349-13
26 11-87
28 34*63
3057*43
33 20*26
3543*ii
38 5*99
4028*90
4251*83
45 14*80
31-
t o r *
23*727 N. 8 50 13
23*730 9 2 16
*3*734 9 H l S
23-738 926 9
*3*743 9 37 59
»3*747 9 4944
23*751 10 I 26
23*756 10 13 2
23-760 102434*
23*764 IO36 2
23*768 104724
23*773 105842*
23*778 11 9 55
23783 11 21 v
23*788 11 32 6*
23*792 11 43
*3*797 II 53 5
23*802 12 443
23*807 12 15 25
23*811 12 26 2
23*816 I23633
23-820 I24659
23-825 12 57 19
23 830 N.i 3 734
Friday, SEPT. 1.
i47 37 # 79!*3**34|N.i3i743
20*77
20-09
19-40
18-68
17-96
17*23
16*48
15*72
H*95
14*17
I3'37
12*56
u*73
10*90
10*06
[09*19
08-32
07-46
06-57
05-67
[04*76
03-83
102*91
101*97
'5I0I'0I
132-50
132*16
131-81
»3 I# 43
131-04
130-64
130*22
129-78
129-33
128-87
128*38
127*88
127*37
126*84
126*31
125-74
125*17
124-58
12398
123-37
122*75
122*10
121*44
120*77
PHASES OF THE MOON.
Aug. s
h m
<[ Last Quarter - 16 13*0
*3
£ New Moon - 9 10*0
21
]) First Quarter - 12 54*8
28
O Full Moon - 9 18*6
Aug. 15
h
([ Apogee .... 21
28
([ Perigee - - - - 20
Digitized by
Goo
o
40
AUGUST, 1882.
XIII.
MEAN TIME.
LUNAE DISTANCES.
Star's Name
P.L.
P.L.
P.L.
P.I*
*
and
Noon.
of
IIP.
of
VP.
of
IX".
of
Position.
dift
diff.
di£
ditT.
t *
t #
or*
t ft
I
An tares W.
88 20 4.8
•063
90 12 44
2066
9« 4 35
2071
93 5* 19
46 15 15
2076
a Aquilffl W.
41 46 4.1
3099
43 H 5*
3030
44 44 27
2972
2920
a Arietis £.
59 35 13
79 7 4»
2103
57 44 '9
2x09
55 53 34
21x7
54 3 »
2125
Saturn E.
2064
77 15 54
2068
75 H 6
88 48 6
2073
73 32 25
2078
Aldebaran E.
9* 3* 1 5
2056
90 40 8
2059
2064
86 56 12
2069
2
a Aquihe W.
54 * 59
2752
55 38 3°
2731
57 14 *9
27x4
58 50 50
2700
FomalhautW.
3 1 39 15
4594
32 41 45
435*
33 47 5o
4H5
34 57 9
3969
a Arietis E.
44 53 5*
64. 16 15
2182
43 4 57
2197
41 ID 25
22x4
39 28 18
58 44 5i
2231
Saturn E.
2112
62 25 34
2120
60 35 6
2x29
2139
Aldebaran E.
77 38 S3
2X03
75 47 59
2112
73 57 18
88 10 30
2121
72 6 51 2130
Jupiter E.
91 4.9 51
2147
90 4
2x56
2165
86 21 9-2174
Sun E.
138 46 14
2414
137 2 59
2420
135 19 53
2428
133 36 59 2436
3
a Aquilce W.
66 $6 9
2667
68 33 34
2666
70 11
2667
71 48 24
2669
FomalhautW.
41 20 41
3400
42 42 57
33*9
44 6 35
3268
45 3' *4
3*15
a Arietis E.
30 35 18
*355
28 50 38
2389
27 6 47
2428
*5 *3 53
«474
Saturn E.
49 37 27
62 58 27
2193
47 48 49
61 9 37
2204
46 28
2217
44 1* *5
2230
Aldebaran E.
2185
2197
59 21 5
2210
57 3* 53
2223
Jupiter E.
77 18 10
2227
75 30 23
2239
73 4* 54
2251
7i 55 43
2264
Sun E.
125 s 41
2487
123 24 10
2499
121 42 55
25 1 1
120 I 57
2523
4
a Aquilffl W.
79 54 4
2701
81 30 43
2710
83 7 10
2720
84 43 24
2731
FomalhautW.
52 48 38
3<>43
54 17 57
33 46 *9
3023
55 47 4i
3006
57^ 17 47
2993
a Pegasi W.
32 12 17
28x2
2777
35 21 27
»749
36 57 2
2727
Saturn E.
H l l
48 36 48
2298
33 3i *
46 50 38
2312
31 45 20
2327
30
»343
Aldebaran E.
2293
2307
45 4 49
2323
43 19 *3
57 49 36
*339
Jupiter E.
63 4 27
2329
61 19 10
*343
59 34 13
*357
2371
Sun E.
in 41 34
2590
no 2 26
2604
108 23 37
26x8
106 45 7
2634
5
a Aquilffl W.
92 40 23
2800
94 H 5i
2816
95 48 58
«833
97 « 43
2850
Fomalhaut W.
64 51 31
*959
06 22 35
*957
67 53 4i
48 14 48
»957
69 24 47
2960
a Pegasi W.
45 20
2676
46 37 33
2674
2672
49 52 5
2674
Aldebaran E.
34 38 1
2422
3* 54 57
2441
31 12 20
*459
29 30 9
*479
Jupiter E.
49 « 37
98 37 38
2442
47 29 *
*457
45 46 48
2471
44 4 54
2486
Sun E.
2708
97 1 8
2723
95 H 59
2738
93 49 9
*753
6
Fomalhaut W.
76 59 13
2985
78 29 45
2993
80 7
3001
81 30 18
3010
a Pegasi W.
57 57 3 6
2695
59 34 23
34 3 6
2702
61 n
2709
62 47 28
2717
Jupiter E.
35 40 20
85 54 58
25S«
*57*
32 21 3
2587
30 41 50
260X
Sun E.
2828
84 21 6
2842
82 47 33
2858
81 14 20
2872
7
FomalhautW.
88 58 9
3065
90 27 1
3078
91 55 37
3091
93 23 57
3105
a Pegasi W.
70 47 2
2761
72 22 21
2770
73 57 28
2781
75 32 21
2790
a Arietis W.
27 11 11
2804
28 45 33
2797
30 20 4
2792
31 54 42
2790
Sun E.
73 3* 5i
*943
72 1 27
*957
70 30 21
2971
68 59 32
2985
8
a Pegasi W.
83 23 32
2841
84 57 6
2852
86 30 27
2863
88 3 34
2873
a Arietis W.
39 48 1
*799
41 22 30
60 29
2803
42 56 54
2808
44 3^ "
28x4
Sun E.
61 29 39
3051
3063
58 3 1 34
3076
57 * 55
3089
9
a Pegasi W.
95 45 47
2917
97 i7 32
2937
98 49 4
*947
100 20 23
2958
a Arietis W.
52 20 39
2847
53 54 6
2853
55 27 25
2860
57 35
2867.
Saturn W.
3i 37 39
2806
33 11 59 2814
34 46 8 2823
36 20 6 2832
Digitiz
-d by VjOO
rS
XIV.
AUGUST, 1882.
*4
MEAN TIME.
LUNAR DISTANCES.
m
Star'a Name
P!.L.
2?
and
Midnight,
of
Position.
dift
/ *
9 »
/ *|
1 J
I
Antares W.
95 47 SS
2082
97 39 22
2088
99 3° 39 2 °95
101 21 46 2x03
a AquiliB W.
47 4.7 8! 2876
49 19 58,2838
50 53 37
2805
52 27 59 2776
a Arietis E.
52 12 40 2134
50 22 33 2145
48 32 42
2156
46 43 8 2168
66 7 8 2104
Saturn E.
71 4.0 52
85 4 25
2084
69 49 28 2090
67 58 13
8l 21 l8
2096
Aldebaran E.
2075
83 12 47
2081
2088
79 30 2095
2
a Aquilae W.
60 27 30 2689
62 4 25
2680
63 41 32
2673
65 18 48 2669
FomalhautW.
36 9 19 3819
37 24 2
3690
38 41
3579
39 59 5^3483
a Arietis E.
37 40 372251
35 53 252273
34 6 46
2297
32 20 42 2324
Saturn E.
56 54 51*2149
55 5 6 2159
53 15 37
2170
51 26 24J2X8X
Aldebaran E.
70 16 38 2140
68 26 41
2151
66 36 59
2162
64 47 342174
Jupiter E.
84 32 3' 2184
82 43 11
2194
80 54 35
2204
79 6 14 22x6
120 47 28,2476
Sun E.
131 54 16J2445
130 11 46
24S5
128 29 30
2465
3
a Aquilae W.
73 25 46 2673
46 57 15 3169
75 3 2
48 24 1
2678
76 40 12
2684
78 17 13 2692
FomalhautW.
3129
49 5i 35
3096
51 19 493068
a Arietis E.
23 42 3J2528
22 1 29 2594
20 22 26
2674
18 45 11; 2774
Saturn E.
42 24 42:2243
40 37 18! 2256
38 50 13
2270
37 3 29; 2283
Aldebaran E.
55 44 59 "37
53 57 26 2250
68 22 15 2289
52 10 12
2264
50 23 20; 2278
Jupiter E.
70 8 50 2276
66 36
2302
64 50 4 23x5
Sun E.
118 21 16 2536
116 40 53
2549
115 48
2563
113 21 2 2576
4
a Aquilffl W.
86 10 22*2744
58 48 92981
87 55 4
2757
89 30 29
2771
91 5 35 2785
63 20 29 2961
FomalhautW.
60 18 46
2972
61 49 34
2966
a Pegasi W.
38 33 62710
40 9 32
2697
41 46 16
2687
43 23 14 2680
Saturn E.
28 15 3*2358
26 30 27
2374
24 46 15
2391
23 227 240S
Aldebaran E.
41 34 20,2354
39 49 39
2371
38 5 22
2387
30 21 29! 2405
Jupiter E.
56 5 20, 2385
54 21 24
2399
52 37 48
2413
50 54 32; 2428
Sun E.
105 6 58^648
103 29 8
2663
101 51 38
2678
100 14 28 2693
5
a Aquilce W.
98 56 7 2869
100 29 6
2887
102 1 42
2906
I0 3 33 53>927
FomalhautW.
70 55 50; 2963
72 26 50 1967
73 57 44
2972
75 28 32; 2978
a Pegasi W.
51 20 202676
27 48 27,2500
53 6 32
26 7 13
2679
54 43 4o
24 26 31
2683
56 20 42 2689
Aldebaran E.
2522
2546
22 46 22 2572
Jupiter E.
42 23 21: 2500
40 42 8
2514
39 l 15
2529
yj 20 42; 2543
87 29 9 2813
Sun E.
92 13 392768
90 38 29
2783
89 3 39
2798
6
FomalhautW.
83 O 19 302X
84 30 6 3031
85 59 4i
3042
87 29 2 3053
a Pegasi W.
64 23 46 2725
65 59 5*i*734
67 35 47
2742
69 11 31' 2752
Jupiter E.
29 2 562615
27 24 22:2630
25 46 8
2644
24 8 13*2659
Sun E.
79 41 25' 2887
78 8 49 2901
76 36 32
2915
75 4 32,2930
7 FomalhautW.
1 , _- r
94 52 1 3"9
96 19 46 3134
97 47 H
3150
99 14 23; 3166
81 49 44*831
| a Pegasi W .
77 7 2 2801
78 41 29 2811
80 15 43
2821
a Arietis W.
33 29 23 2789
67 29 2998
35 4 5|*789
36 38 47
2791
38 13 26J2794
62 59 5 3038
Sun E.
65 58 451 301a
64 28 47
3025
8
a Pegasi W.
89 36 27 2883
91 9 8 2894
92 41 34
2905
94 13 47 2915
a Arietis W.
46 * 5 20* 2820
47 39 22
2826
49 '3 16
2832
5047 22839
Sun E.
55 34 32J3I01
54 6 23
3113
52 38 29
3125
51 10 50 3138
9 ! a Pegasi W.
101 51 28 2969
103 22 19
2981
104 52 56 2992 106 23 19 3003
! a Arietis W.
58 33 362874
60 6 28
2882
61 39 10 2888 j 63 11 442896
1 Saturn W.
37 53 52 2840
39 27 28 2848
41 53' 2 857l 42 34 7 2865
Digitized by
Go<
o
2
AUGUST,
1882.
XV.
MEAN TIME.
LUNAR DISTANCES.
Start Nome
and
Position.
Noon.
P.L.
of
diff.
IIP.
P.L.
of
diff.
VI".
P.L.
of
diff.
IX*.
PX.
of
diff.
Sun
E,
o / *
49 43 * 6
3149
9 »
48 16 15
3162
O 9 •
46 49 20
3173
» »
45 iz 38
3184
a Arietis W.
Saturn W.
AldebaranW.
Sun E.
64 44 8
44 7 »
31 20 15
38 12 39
2903
2873
2895
3*43
66 16 23
45 40 4
32 58 40
36 47 21
2909
2880
2899
3256
67 48 30
47 " 48
34 31
35 22 18
2917
2889
2905
3268
60 so 27
48 45 21
36 3 13
33 57 *9
2924
2896
2909
3281
a Arietis W.
Saturn W.
Aldebaran W.
Sun E.
76 58 3
56 25 45
43 4* 3^
26 57 16
2958
2933
*937
335*
78 29 8
57 57 «
45 H 8
*5 34 4
2964
2939
2943
3369
80 6
59 *8 51
46 45 32
24 11 12
2971
2946
2949
3387
81 30 ss
61 11
48 16 49
22 48 41
2978
*953
*955
3407
Sun
Spica
Antares
W.
E.
E.
18 25 47
41 56 8
87 28 ss
359*
3069
3090
19 42 24
40 27 20
86 33
358i
3071
3092
21 1 19
38 5« 35
84 32 13
3566
3073
3094
22 20 31
37 *9 S3
83 3 56
3555
3<>75
3096
Sun
Spica
Antares
W.
E.
E.
28 58 58
30 6 52
75 43 3
35*9
3082
3103
3 2 '2 s
28 38 20
74 1* 57
3S«4
3082
3104
31 39 10
27 048
72 46 52
3510
3082
3105
32 59 23
25 41 17
71 18 48
3506
3082
3105
Sun
Antares
a Aquil©
W.
E.
E.
39 4J 35
§3 58 26
114 38 26
3486
3103
3587
41 2 15
62 30 20
113 19 38
3482
3101
3574
42 22 59
61 2 12
112 35
3478
3101
356*
43 43 47
59 34 3
no 41 19
3473
3099
3549
Sun
Antares
a Aquil©
W.
E.
E.
50 29 10
52 12 43
104 1 48
3448
3087
349*
51 50 32
So 44 18
102 41 19
344*
3084
3486
53 « l
49 *5 49
101 20 39
343*
3081
3477
54 33 37
47 47 »6
99 59 49
343o
3078
3467
Sun
Mars
Antares
a Aquito
W.
W.
E.
E.
61 23 36
27 15 4
40 23 26
93 13 5
339*
33"
3058
34*3
62 46 2
28 39 3
38 54 25
91 51 14
3382
3*97
3055
3415
64 8 39
30 3 18
37 25 20
90 29 15
3373
3284
3051
3407
65 31 26
31 27 48
35 56 10
89 7 6
33*4
3*7i
3<>47
3399
Sun
Mars
Venus
Antares
a Aquilse
W.
W.
W.
E.
E.
72 28 14
3« 34 15
29 23 20
28 29 19
82 14 6
33«o
3204
3383
3°35
3360
73 5* H
40 20
30 45 56
26 59 49
80 51 4
3*98
3190
3368
3°35
3353
75 16 28
41 26 41
32 8 49
25 30 20
79 *7 54
3*85
3177
3353
3°37
3346
76 40 57
42 53 18
33 3' 59
24 53
78 4 36
3*73
3163
3338
3042
3340
Sun W.
Mara W.
Venus W.
Spica W.
a Aquil© E.
FomalhautE.
83 47 13
50 10 43
40 32 16
29 S4 48
71 6 19
99 22 28
3*03
3088
3*59
2837
3312
3316
85 13 19
5i 39 7
41 s l '2
31 28 28
69 42 21
97 58 35
3188
3<>73
3*43
2823
3307
3298
86 39 42
53 7 50
43 •* 33
33 2 26
68 18 18
96 34 21
3172
3056
3226
2809
33<>4
3282
88 6 25
54 3 6 53
44 48 n
34 3 6 4*
66 54 11
95 9 48
3157
3041
3209
*794
3301
3*64
Sun W.
Mars W.
Venus W.
Spica W.
a Aquil© E.
FomalhautE.
95 H 5^
62 7 14
52 1 35
4* 33 5
59 53 7
88 2 7
3072
*954
3119
2716
3302
3184
96 st 36
63 38 24
S3 29 21
44 9 *4
58 28 57
86 35 39
3<>54
*937
3100
2699
3306
3168
98 22 42
65 9 56
54 57 3i
45 46 *6
85 8 52
3036
2919
3082
2682
3312
3154
99 5* *°
66 41 51
56 26 3
47 23 »°
55 40 54
83 41 48
3018
2901
3062
2665
3319
3140
Sun
Mars
W.
W.
107 25 19
74 27 25
2923
2805
108 57 9
76 1 47
2903
2786
no 29 24
77 3 6 33
2883
2766
112 2 4
79 « 46
2864
2746
Digitized by "
XVI.
AUGUST, 1882.
14
MEAN TIME.
LUNAR DISTANCES.
1
Star's Name
and
Position.
Midnight.
PX.
of
diff.
XV*.
P.L.
of
diff
xvm>.
PX.
of
diff.
XXI*.
P.L.
of
diff.
9
Sun
E.
9 •
43 56 10
3196
t *
42 29 56
3209
1
41 3 57
3220
O 1 *
39 38 11
3231
10
a Arietis W.
Saturn W.
Aldebaran W.
Sun E.
70 52 15
50 17 45
37 35 20
32 32 55
2931
1904
1915
3*94
72 23 55
5i 49 59
39 7 19
31 8 36
2938
29x2
2920
3307
73 55 26
53 »2 3
40 39 12
29 44 33
*944
29x9
2926
3321
75 26 49
54 53 58
42 10 58
28 20 46
2951
2925
2932
3336
11
a Arietis W.
Saturn W.
Aldebaran W.
Sun E.
53 1 35
62 31 22
49 47 58
21 26 33
2984
2959
2960
343 *
84 32 8
64 2 26
51 19 1
20 4 52
2990
2966
2966
3457
86 2 33
65 33 21
52 49 57
18 43 40
2997
2972
2972
3488
87 32 50
67 4 9
54 20 45
17 23 3
3003
2978
*977
35*4
15
Sun
Spica
A-ntares
W.
E.
E.
*3 39 54
2 6 l **
81 35 41
3545
3<>77
3098
24 59 28
34 32 36
80 7 29
3537
3078
3100
26 19 11
33 4
78 39 19
353i
3079
3101
27 39 1
3i 35 25
77 11 10
35*5
3081
3x02
16
Sun
Spica
Antares
W.
E.
E.
34 19 40
24 12 46
69 50 44
3501
3082
3105
35 40 3
22 44 14
68 22 40
3498
3082
3105
37 29
21 15 42
66 54 36
3494
3082
3104
38 21
19 47 10
65 26 31
3490
3080
3104
17
Sun
Antares
a Aquita
E.
E.
45 4 4i
58 5 52
109 21 49
3469
3097
3538
46 25 40
56 37 39
108 2 7
34^4
3095
3526
47 46 44
55 9 23
106 42 12
3459
3<>93
3516
49 7 54
53 4i 5
105 22 6
3454
3090
3506
18
Sun
Antares
a Aquila
W.
E.
E.
55 55 20
46 18 39
98 38 48
34*3
3<>74
34S«
57 17 "
44 49 58
97 17 37
34*5
3070
3449
58 39 11
43 21 12
95 56 16
3407
3066
3440
60 1 19
41 52 21
94 34 45
3400
3063
343*
19
Sun
Mars
Antares
a Aquita
W.
W.
E.
E.
66 54 24
32 52 34
34 26 55
87 44 48
3354
3*57
3043
3390
68 17 33
34 17 36
32 57 36
86 22 20
3344
3*43
3040
3383
69 40 54
35 42 54
31 28 13
84 59 44
333*
3230
3038
3376
71 4 28
37 8 27
29 58 47
83 37
33**
3218
3036
3367
20
Sun
Mars
Venus
Antares
a Aquita
W.
W.
W.
E.
E.
78 s 40
44 20 12
34 55 27
22 31 32
76 41 II
3*59
3148
33*3
3050
3333
79 30 39
45 47 23
36 19 12
21 2 21
75 17 38
3246
3U3
3307
3062
33*7
80 55 53
47 H 52
37 43 15
19 33 25
73 53 58
3231
3119
3292
3080
3321
82 21 25
48 42 39
39 7 3 6
18 4 51
72 30 11
3218
3x04
3276
3106
3317
21
Sun W.
Mars W.
Venus W.
Spica W.
a Aquilffl E.
FomalhautE.
89 33 26
56 6 15
46 14 10
36 II 18
65 30
93 44 54
3140
3024
3192
2778
3*99
3*47
.9 1 47
57 35 58
47 40 29
37 46 14
64 5 48
92 19 41
3123
3007
3174
2763
3*97
3*3'
92 28 28
59 6 2
49 7 9
39 21 30
62 41 33
90 54 9
3106
2990
3x56
*747
3298
3215
93 56 30
60 36 27
50 34 11
40 57 7
61 17 19
89 28 17
3090
2973
3138
273X
3300
3x99
22
Sun W.
Mars W.
Venus W.
Spica W.
a Aquita E.
Fomalhaut E.
101 22 1
68 14 9
57 55
49 37
54 17 5
82 14 27
2999
2882
3042
2647
33*9
3x26
102 52 15
69 46 51
59 24 20
50 38 28
52 53 27
80 46 49
2981
2863
3022
2630
334*
31x4
104 22 52
71 19 58
60 54 5
52 16 42
51 30 4
79 18 56
2961
2844
3002
2612
3358
3x00
105 53 54
72 53 29
62 24 15
53 55 21
50 6 59
77 50 47
2942
2825
2982
*593
3377
3088
23
Sun
Mars
W.
W.
"3 35 9
80 47 25
2844
2726
115 8 40
82 23 30
2824
2707
116 42 36
84 1
2804
2686
118 16 58
85 37
2785
2666
Digitized by "
44
AUGUST, 1882.
XVII.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
PX.
P.L.
P.L.
>>
and
Noon.
of
III*.
of
w.
of
IX*.
of
A
Position.
diff.
diff.
ditt
diff.
t *
O t K
§ »
1 *
23
Venus W.
63 54 50
2962
6s 25 51
2942
66 57 17
2920
68 29 10
2900
Spica W.
55 34 *5 *575
57 13 54
2558
58 53 47
*539
60 34 7
2520
FomalhautE.
76 22 23
3078
74 53 46
3067
73 H 56
3057
7i 55 54
3049
a Pegasi E.
93 19 4
2725
91 42 57
2705
90 6 24
2687
88 29 27
2669
24
Son W.
119 51 45
2765
121 26 59
2746
123 2 38
2726
124 38 43
2707
Mars W.
87 14 25
76 15 13
2647
88 52 16
2627
90 30 35
2607
92 9 21J2587
81 1712733
Venus W.
*795
77 49 47
*775
79 *4 48
»753
Spica W.
69 2 18 2426
70 45 16
2406
72 28 42
2388
74 I* 34! 2369'
Antares W.
24 * 5°; 2 55o
25 48 54
2516
27 29 45
2485
29 11 19' 2456 1
FomalhautE.
64 28 33!3°*4
62 58 50
3<>*3
61 29 6
3025
59 59 25
3029]
a Pegasi E.
80 18 3312580
78 39 10
2562
76 59 23
2546
75 19 14
*53°
25
Venus W.
89 4 30:2632
90 42 41
84 45 13
26x2
92 21 19
56 32 12
*593
04 24
88 19 37
*574!
Spica W.
82 58 39 2277
2260
2242
2225'
Antares W.
37 48 41! 2333
39 33 53
231Z
41 19 36
2290
4 o" S 5 o
48 9 58
2270
FomalhautE.
52 33 I8J3093
51 5
3"7
49 37 "
3«47
3x83!
a Pegasi E.
66 53 T24S7
65 10 47
*444
63 28 15
2432
61 45 26 2422
1 |
26
Antares W.
52 4 15:2178
53 53 * 6
39 46 29
2161
55 4* 42
38 27 27
2145
57 3* 3* "3o
FomalhautE.
41 7 I5!348i
3575
3685
37 10 24 3814
a Pegasi E.
S3 8 102387
51 24 17
2385
49 40 21
2386
47 56 26 2388
a Arietis E.
95 39 5 6 j 2, 9o
93 5i 13
2175
92 2 8
2x61
90 12 41 2x47 ,
*7
Antares VV.
66 47 6,2066
68 38 58
2054
70 31 8
2044
72 23 33
2035'
a Pegasi E.
39 l 9 8:2450
81 31! 2087
37 36 44
2476
35 54 57
2509
34 13 57*55o:
a Arietis E.
79 9 "
2078
77 17 39
98 8 41
2070
75 *5 53 «tfi'
Saturn E.
101 53 33! 2049
100 1 15
2039
2029
96 15 51 2020
28
Antares "VV.
8l 48 52 ! 2000
83 42 26
1996
85 36 7
1992
87 29 54; 1989 :
a Aquilra W.
3 6 53 lAlU*
38 16 38
64 11 42
3*39
39 4* 1
62 18 58
3U6
41 9 27; 3047 '
a Arietis E.
66 4 22 2035
2032
2031
60 26 11 2031 !
Saturn E.
86 48 38
1986
84 54 42
1982
83 39
x 97 8
81 6 30' 1975'
Aldebaran E.
99 4 46
1990
97 10 56
1986
95 16 59
1982
93 22 57-1979
29
a Aquilje W.
48 50 11
2742
50 25 55
2702
52 2 32
2668
53 39 55, '^
a Arietis E.
51 2 45
2045
49 10 21
2052
47 18 8
2060
45 26 7> 2070
Saturn E.
71 35 6
1973
69 40 50
1975
67 46 37
1978
65 52 28; 1982
78 9 44; 19S6
Aldebaran E.
83 52 3
^977
81 57 53
»979
80 3 46
1982
Jupiter E.
102 38 3
2010
100 44 45
2012
98 51 30
20x5
96 58 I9J20I8
30
a Aquil® W.
61 55 14
2544
63 35 26
»535
65 15 51
2528
66 56 26 2523
FomalhautW.
37 6 53
357.8
38 25 51
3457
39 47 3
3354
41 10 12*3266
a Arietis E.
36 10 43
2147
34 20 55
2169
32 31 40
2195
30 43 5, 2225
Saturn E.
56 23 35
20x1
54 30 18
20x9
5* 37 14
2028
50 44 24, 2038
Aldebaran E.
68 41 26
2016
66 48 17
2025
64 55 22
2034
63 2 40 2044
Jupiter E.
87 34 8
2048
85 41 48
2055
83 49 40
2064
81 57 45J "73!
3i
a Aquilae W.
75 20 5
2528
77 40
*534
78 41 6
2542
80 21 21J2551 j
FomalhautW.
48 27 43
2979
49 58 22
2944
51 29 45
29x4
53 1 46:2890
Saturn E.
41 24 14
2095
39 33 7
2x08
37 42 20
2x22
35 5i 54 *i37 j
Aldebaran E.
53 43 22J2103
51 52 27
2x16
50 1 52
69 1 58
213X
48 11 401145
Jupiter E.
72 42 7, 2130
70 5i 53
2142
2156
67 12 24 2169 1
Pollux E.
96 6 38 2165 94 17 17
2177
92 28 15
2190
90 39 32 2204
Digitized by
Goo
o
XVIII.
AUGUST, 1 88a.
14'
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L.
P.L.
1
and
Midnight*
of
XVK
of
XVIIP-
of
XXI b .
of
Position.
diff.
diff.
diff.
diff.
o l *
t •
1 1
1 It
23
Venus W.
70 I 29
2880
7i 34 14
2858
73 7 27
2838
74 4i 6
28x6
Spica W.
62 14 52
2501
63 56 4
2482
65 37 42
2463
67 19 47
*445
FomalhautE.
70 26 42
86 5 2 5
3°4«
68 57 20
3035
67 27 50
3030
65 58 14
3026
a Pegasi E.
2650
85 14 18
2632
83 36 7
2615
81 57 32
*597
24
Suh W.
126 15 14
2688
127 52 10
2669
129 29 32
2651
131 7 18
2632
Mars W.
93 48 34
82 36 13
2568
95 28 13
84 12 36
2548
97 8 20
85 49 27
2530
98 48 52
25x0
Venus W.
27x3
2692
2672
87 26 45
2652
Spica W.
75 5 6 53
2350
77 4i 39
2332
79 26 52
*3*3
81 12 33
2296
Antares W.
30 53 34
2429
32 36 27
2403
34 19 57
2379
36 4 2
*355
FomalhautE.
58 29 48
73 3* 42
3035
57 19
3<>45
55 3J 2
3057
54 2
3073
a Pegasi E.
2514
7? 57 48
2498
70 16 32
2484
68 34 57
2470
25
Venus W.
95 39 54
2556
97 19 5o
2538
99 11
2520
100 40 57
2502
Spica W.
90 7 28
2207
9i 55 45
2x91
93 44 26
48 27 30
2175
95 33 3i
2x59
Antares W.
44 52 35
46 43 28
60 2 23
2250
46 39 49
2231
22x2
50 15 39
2194
FomalhautE.
3225
45 17 48
3*74
43 53 f
333i
42 29 31
3400
a Pegasi E.
2412
58 19 6
2404
5 6 35 36
2397
54 5i 57
2391
26
Antares W.
59 22 45
2116
61 13 20
2103
63 4 15
2089
64 55 3i
2077
FomalhautE.
35 55 36
3965
34 43 21
44 28 49
86 32 45
4143
33 34 1
4353
32 27 57
4600
a Pegasi E.
46 12 34
2393
2402
42 45 17
2413
41 2 1
2429
a Arietis E.
88 22 53
2133
2121
84 42 18
2109
82 51 33
2098
27
Antares W.
74 16 12
2026
76 9 s
2018
78 2 11
2012
79 55 27
2006
a Pegasi E.
32 33 53
26c 1
30 55
2664
29 17 32
2741
27 41 47
2837
a Arietis E.
73 33 54
2054
71 41 44
2048
69 49 24
2043
67 56 57
88 42 25
2038
Saturn E.
94 22 48
2012
92 29 32
2004
90 36 4
'997
1992
28
Antares W.
89 23 45
42 38 42
1987
91 17 39
19^6
93 11 35
1986
95 5 32
1986
a. Aquilse W.
2969
44 9 34
290 X
45 4i 52
2840
47 15 28
2788
a Arietis E.
58 33 25
2031
56 40 39 2033
54 47 56
2036
52 55 17
2040
Saturn E.
79 « l 7
1973
77 18 1 197*
75 23 43
87 40 27
1972
73 29 24
1972
Aldebaran E.
91 28 50
1977
89 34 39 '97*
1976
85 46 15
1976
29
a Aquilre W.
55 17 59
2612
56 56 37
2590
58 35 46
257a
60 15 19
2556
a Arietis E,
43 34 22
2081
41 42 54
62 4 29
2094
39 51 46 2109
60 10 41 1998
38 1 1
2127
Saturn E.
63 58 25
76 15 47
1986
i99i
58 17 3
2004
Aldebaran E.
1991
74 21 58
1996
72 28 18 2002
70 34 47
89 26 40
2009
Jupiter E.
95 5 13
2023
93 12 14
2027
91 19 22
2033
2040
30
a Aquilffl W.
68 37 8
2520
70 17 53
2519
71 58 40
2521
73 39 25
46 57 55
2524
FomalhautW.
42 35 4
3190
44 * 25
3124
45 29 6 3068
3020
a Arietis E.
28 55 i4
2260
27 8 15
2301
25 22 16 2349
23 37 28
2406
Saturn E.
48 51 49
2048
46 59 29 2059
45 7 26 2070
43 15 4i
2082
Aldebaran E.
61 10 14
2054
59 18 4I2066
78 14 40' 2094
57 26 12 2077
55 34 37
2090
Jupiter E.
80 6 5
2083
76 23 31
2105
74 32 40
2117
31
aAquila W.
82 1 24
2561
83 41 12
56 7 14
2572
8s 20 45
2585
87
*599
Fomalhaut W.
54 34 17
2870
2854
57 40 32
2841
59 14 7
28 33 59
40 54 46
2831
Saturn E.
34 * 5i
2151
32 12 10
2166
30 22 52
2183
2200
Aldebaran E.
46 21 50
2161
44 32 24
2177
42 43 22
2194
22X1
Jupiter E.
65 23 10
2x84
63 34 19 2x98
61 45 49 22x4
59 57 43
2229
Pollux E.
88 51 10
2218
87 3 9 "33
85 15 30 "49
83 28 15 2264
10
(nautical almanac, 1882,)
o
146
SEPTEMBER, 1882.
1.
AT APPARENT NOON.
I
s
Apparent
Right Ascension.
Frid.
Sat.
Sun.
1
2
3
I
I
I
Mon.
Tues.
Wed.
4
5
6
I
I
Thur.
Frid.
Sat.
1
9
Sun.
Mon.
Tues.
10
11
12
Wed.
Thur.
Frid.
'3
IS
Sat.
Sun.
Mon.
16
17
18
Tues.
Wed.
Thur.
19
20
21
Frid.
Sat.
Sun.
22
23
24
Mon.
Tues.
Wed.
25
26
27
Thur.
Frid.
Sat
28
29
30
Sun.
31
I
THE SUN'S
to 4* 3*33
to 4.5 40*81
to 49 18*04
to 52 55*02
[o 56 31*79
1 o 835
3 44-71
7 20*90
10 56*93
14 32*82
18 859
21 44*24
25 19*80
28 55*28
32 30*71
36 6*io
39 4^46
43 16*81
46 52*19
50 27*59
54 3 "04
:i 57 38*56
1 14*17
4 49*89
i2 8 25*74
[2 12 1*74
[2 15 37*93
[2 19 14*34
12 22 50*98
12 26 27*89
12 30 5*09
Var.
in
1 hoar.
•
9*067
9-056
9-046
9-036
9*028
9-019
9*011
9-005
8*998
8-993
8-988
8*984
8-980
8*977
8-975
8-974
8*973
8-974
8*975
8-976
8-979
8*982
8*986
8*991
8-997
9*004
9*012
9*022
9*032
9-044
9-057
N. 8
Apparent
Declination.
14 4-8
7 52 13*0
7 3° J 3'4
7 * 6*5
6 45 52*4
6 23 31*6
6 1 4*4
5 38 Si' 1
5 15 521
4 53
4 30
4 7 *4'*
.*:
3 44 *5'7
3 21 23*2
2 58 171
2 35 7*7
2 11 553
1 48 40-2
I 25 22*9
12 3
o 38 42
o 15 20*7
o 8 2*3
o 31 25*9
54 49*7
1 18 13*5
1 41 37*0
2 4 59*8
2 28 21*6
2 51 42*1
S. 3 15 0*9
Var.
in
1 hoar.
54*49
54-82
55 'H
55*44
55*73
56-00
56-26
56-51
56- 74
56*95
57-16
57*35
57*5*
57*68
57-82
57*95
58-07
58-17
58*26
58*34
58-40
58*44
58*47
58-49
58-49
58-49
5846
58*43
58-38
58-32
58*24
Sidereal
Time of
the Semi-
diameter
passing
the
Meridian.*
m s
4*40
4'35
431
4-28
4*24
4*21
4-18
4-iS
4"i3
4*ii
4*09
4*07
4-06
4*05
4*05
4*04
4*04
4-04
4*05
4*06
4*07
4-09
4*io
.4*12
4'*5
4*18
4*21
4*24
4*27
4*31
4*36
Equation of
Time,
to be
eubtracted
from
Apparent
Time.
Var.
in
1 hour.
m s
o 8'Ol
O 27*03
46*31
1 5*82
I 25*56
I 45*50
5*63
25*94
46*40
3 yoi
3 *7 # 74
3 48-S8
4 9*52
4 30*53
4 51*59
12*70
33-83
54'97
16*10
37-19
58*23
7 19-20
7 4°-°9
8 0*87
8 21*52
8 42*01
9 2 '3i
9 22*40
9 42-25
10 1*84
10 21*14
a
0-787
0-798
0-808
0-818
0-827
0-835
0-842
0*849
0-856
o*86i
0-866
0-870
0*874
0-876
0-879
0-880
o-88z
o-88i
0-880
0-878
0-875
0-872
0-868
0-863
0-857
0*850
0-841
0-832
0*822
0*8x0
0-798
•Mean Time of the Semidiameter passing may be found by subtracting o 1 - 18 from the Sidereal Time.
Digitized by
Google
II.
SEPTEMBER, 188a.
14
1
I AT MEAN NOON.
i
4
1
•
THE SUN'S
BqtMtieaoT
i
•AM
1
O
Apparent
Bight Ascension.
Apparent
Decimation.
Semi-
diameter.*
to
JfiNM
SUeresJ TW
Frid.
Sat.
Sun.
1
2
3
has
IO 42 3-55
IO 45 40*88
IO 49 18*15
or*
N. 8 14 4*7
7 52 12*6
7 30 12*7
15 53«
15 53*8
»S 54©
■ •
8 'os
27*04
40-32
h m •
1042 u*37
10 46 7*92
10 50 4*47
Mon.
Toes.
Wed.
4
1
10 52 55 19
10 56 32*00
11 8'6i
7 * 55
6 45 511
6 23 29*9
15 54*3
15 54-5
IS 54* 7
1 5-84
1 2358
1 4S5»
10 54 1*02
10 57 5758
11 i 5413
Thnr.
Frid.
Sat.
I
9
11 3 4503
11 7 21*27
11 10 5735
6 1 2*4
5 38 28*8
5 IS 49'S
15 55-0
»S 55'*
15 555
s 566
s 25*97
* 4044
11 5 50*68
11 9 47*24
11 13 4379
Sun,
Mon.
Tues.
10
11
12
11 14 3329
11 18 9*ii
11 21 44*81
4 53 4'7
4 30 H'9
4 7 20*5
IS 55*7
15 55-9
15 56'*
3 7*05
3 *r79
3 4804
11 17 40U
11 21 36*89
11 25 33*44
Wed.
Thur.
Frid.
'3
H
15
11 25 20*42
11 28 55*96
11 32 31*44
3 44 21*7
3 21 18*9
2 58 12*4
IS 56-5
15 56-7
15 57-0
4 9'S8
4 30-59
4 51*67
11 29 30*00
11 33 2655
11 37 23*10
Sat.
Sun,
Mon.
16
11 36 6*88
11 39 4229
11 43 17*70
2 35 2*6
2 II 49*9
1 48 345
IS 57-*
IS 575
IS 57-8
S 1278
5 33*9*
5 55 -06
11 41 1965
11 45 16-21
11 49 12*76
Tues.
Wed.
Thur.
*9
20
21
n 46 55* 12
n 50 28-58
11 54 4'o8
1 25 16*8
1 1 57*2
38 36*0
15 5°--i
IS 586
6 16'ia
6 37-28
6 5833
11 53 9'S«
11 57 5*86
12 1 2*41
Frid.
Sat
Sun,
22
23
24
11 57 39*66
12 1 15*32
12 4 51*09
N. 15 13*6
S. 8 9*8
31 33*7
IS 58-9
is 591
15 59*4
7 i93i
7 40-20
8 0*99
12 ± 58*97
12 8 5552
12 12 52*07
26
*7
12 8 26*99
12 12 3*05
12 15 39*29
54 57'9
1 l8 22*0
1 41 45*8
if 59*7
ID O'O
16 0-2
8 si -64
8 4*13
9 *'44
12 16 48 '62
12 20 45*18
12 24 41*73
Thur.
Frid.
Sat.
28
29
30
12 19 1575
12 22 52*44
12 26 29*40
2 5 89
2 28 31*0
2 51 51-8
16 o*5
16 o-8
16 11
9 "'S3
9 4*'39
10 1-98
12 28 38*28
12 32 34-83
12 36 31*38
Sun.
3 1
12 30 6*66
S. 3 15 ii'o
16 i*3
10 21*28
12 40 27*94
• T
heSei
nidfameter tor Apj.
went Noon may be
•warned (h«i
•meutlutfei
' Mean Noon.
Digitized by ""
O
L Z
SEPTEMBER, 1882.
in.
MEAN TIME.
THE SUN'S
Apparent
Longitude.
Noon*
Latitude.
Noon.
Logarithm
of the
Radius
Veotor
of the Earth,
Noon,
Transit
of the
First Point
of
Aries.
THE MOON'S
Semidiameter.
Noon.
Midnight
Horizontal Parallax.
Noon,
Midnight
O / 4
58 54 28
59 5* 35 _
5o 50 44*6
5i 48 55-7
62 47 8
53 45 24-2
54 43 41-4
55 4* 0-7
56 40 2i a 9
>7 38 45'
38 37 10*2
5 9 35 371
70 34 5 '9
71 32 36*6
72 31 9 # o
73 29 433
74 28 19-3
75 26 57' l
76 25 36-6
77 H J 7' 8
78 23 o*6
79 21 45-2
So 20 31*4
h 19 19*2
$2 18 8-8
J3 17 0*2
J 4 is 53-6
S.O'02
0-15
0-28
0*41
053
0*63
0*70
0-75
0*78
0-79
0-77
0-73
o*66
0-58
o'47
0*36
0*24
0*12
S.o*oi
N.o'ii
0*22
0*29
0-34
0*36
0-34
0*29
0*20
0*0037398
OO36367
OO35327
(0*003427913 3 50*2I
OO33219 12 59 54-31
OO32148 12 55 58*40
•002C
0*0027737
0*0024287
•OO23I 1 1
'002I923
^5 14 49*oN.o*o7
56 13 46*6S.o'o6
0*20
$7 12 46-4
58 11 48*6S.o'34|o'ooo2i9i
h m ■
13 15 37*93
13 11 42*03
13 7 46*12
l6 21*2
16 7*0
15 52*2
16 14-3
'5 59'
'5 44-8
65
59 54*9
3-0
8-5
0*0031064
OO29969
8860
12 40 I
36 I
'0025450 12 32 22*96
-0026000 12
0'0020722
•OOI95
•OOI829O
10 12
•OOI7061
•OOI58
* OOI4582
•OOI3336
* OOI2088
•0010840
0*0009594
•OO0835I
•OOO7I I I
o' 0005 8 74
* 0004642
•0003415
12 52 2*4
12 48 6*5
12 44 10*68
■U
12 28 27*05
12 24 3I'I5
12 20 35*24
12 16 39-33
12 43*43
12 8 47*52
12
2412
4 5i-6i
o 55*71
11 56 59*80
53 3-89
n 49 7*9-
11 45 I2'Ol
II 41 16*18
11 37 20*27
11 33 24*36
11 29 28*46
11 25 32
11 21 36*64
11 17 40*74
15 37'7'5 30-957 15*4
15 24*415 18*556 26
15 13*015 7*955 44-
15 3 6
14 55*8
14 50
414
14 46*2
H 43 "
14 430
14 43*6
H 45
14 49-4
14 54-8
15 2*1
5 » '4
15 22*7
15 35'7
15 50*1
16 5*1
16 19*5
16 32*0
16 41*0
16 45-2
16 44*1
16 37-5
16 26*5
16 12*3
566
59*4
14 52*7
14 47*9
14 44-8
fH 43 '^
14 43
14 44
*4 47'3
14 51
14 58-2
6-5
16-8
15 29*0
15 42*8
15 57 '
16 12*5
16 26*1
16 37
16 43
16 45-3
16 41
16 32*
16 19*
16 4*
15 48-7
55 9'7
54 42-0
54 *i'i
54 6-7
53 58
53 55*0
53 57
54 4'9
54 18-5
54 3^4
55 5*2
55 39'2
56 20*5
57 8-4
658 i- 1
58 56*0
59 48-8
34*4
060
76
46
7'3
22 '9
1 18-6
60 54
60 14
22
659 22'4
58 24'8
59 29*7
58 35*8
57 4i'5
56 50-5
56 5-0
55 263
54 55*o
54 3° # 7
54 13' 1
54 i'7
53 55*8
53 554
54 0*4
54 "'o
54 27*6
54 5o-9
55 21-3
55 59'°
56 43'7
57 34"3
58 285
59 23-0
00 12-8
60 52-8
61 17-5
61 233
61 9*0
60 36*3
59 49 - 4i
58 54-°:
I
57 55 6
Digitized by
Google
IV.
SEPTEMBER, 1882.
149
MEAN TIME.
a
XI
1
THE MOON'S 1
1
O
1
Aboil. Midnight
Aboii.
Midnight
Abo*.
Upper.
Lower.
I
2
3
or*
29 43 40-2
43 57 *9'*
57 44 ii-i
l m
36 53 5 8« I
50 54 II* I
64 27 44-4
or*
N. 2 2 42-2
N.o 50 41*0
S. 22 12*8
l •
N. i 27 6*4
N.o 14 3*3
S.o 57 370
d
18-6
19*6
20/ 6
h m
15 40-3
16 35^
17 30-8
h m
3 12*6
4 8*o
5 33
4
1
71 5 u-g
84 3 3*5
96 42 58-5
77 36 58"6
90 25 22*7
102 56 49*i
1 31 42*5
2 34 27*9
3 *7 59'9
2 4 6-1
3 * 30-7
3 50 43*6
21*6
22*6
23*6
18 24-8
19 17*0
20 6*9
5 58-0,
6 51-11
7 4*"2:
7
8
9
109 7 21*8
121 20 15-4
133 24 40-8
115 15 z-6
I27 23 21*7
139 24 29*6
4 10 31*6
4 40 49-3
4 58 7-9
4 27 *5' 6
4 5i 7*8
5 1 47*9
24*6
256
26*6
20 54-5
21 398
22 23*3
8 31-0,
9 *7-4J
10 i-8
10
11
12
*45 23 3 '4
157 17 192
169 9 2*6
151 20*35-9
163 13 24-4
175 4 24-7
5 * 7"8
4 52 55*
4 3 1 i* 6
4 59 9'*
4 43 3°"6
4 15 3 6 **
27-6
28*6
29*6
23 56
23 47*i
* *
xo 4^*6
11 20*4
12 7-8
>3
'4
>5
180 59 42-3
192 50 54- 8
204 44 38*8
186 55 7-5
198 47 19-3
210 43 13*1
3 57 *3"7
3 13 21-5
2 20 36*1
3 36 34'8
2 47 57-1
1 5i 33*9
I'O
2*0
3-0
28-7
1 10-8
1 54-2
12 49 -6 !
13 32-3!
14 16-5
1
16
216 43 24*6
228 50 21*2
241 9 13-3
222 45 38-3
234 58 2-3
247 24 26*5
1 21 7*o
S. 17 9-4
N.o 48 46*1
S. 49 32*6
N.o 15 43*8
1 21 30-0
4-o
I-'I
3 26*0
4 i6*3
15 8-7
15 5'-*
16 41-9
19
20
21
253 44 14-8
266 39 47-3
279 59 49*7
260 9 11*2
273 16 31 *8
286 50 0*4
1 53 50-9
2 54 56-9
3 48 34'7
2 25 6-3
3 " 55'7
4 11 25*0
K
9-0
5 8-i
6 1-8
6 56-6
17 348
18 29'I :
19 24*2
22
*3
24
293 47 15-5
308 2 57-0
322 44 55 '2
300 51 37-1
315 20 54-5
330 14 124
4 30 57'3
4 58 14-8
5 7 4'6
4 4^ 43*o
5 5 8'6
5 3 48-6
IO'O
II'O
I2'0
7 5»'9
8 47'i
9 4*-2
20 19*5
21 14-7
22 97
3
27
337 47 46-2
353 2 55'*
8 19 44-7
345 H 26-7
41 49*2
15 55 20-7
4 55 H'4
4 22 28-4
3 30 54*2
4 41 2V0
3 58 48*8
2 59 21-4
13*0
14*0
15-0
10 37*2
11 32-5
12 28*4
23 48
« *
0*3
28
2 9
30
23 27 22*8
38 16 35-6
5241 31
30 54 45-8
45 32 II *o
59 4^ 55*5
2 24 52*?
ST. 1 10 6*8
S. 7 18-0
1 48 n-8
tf. 31 22*7
S. 45 16-3
16-0
17*0
i8 a o
13 25-2
14 22*6
15 19-9
56-7
1 538
* 513 \
31
1
66 37 43-5
73 *5 3i*6
S. 1 21 57*9
S. 1 56 53 3
19*0
[6 16*2
1
3 48-2
Digitized
i5o
SEPTEMBER, 1882.
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
■i
Right
Ascension.
Tar.
ini©"«.
Declination.
Var.
in io".
1
Right
Ascension.
Var.
inio".
Declination.
Var.
inxo"*.
Friday i.
SUHDAY 3.
h m a ■
/ «■ »
h m a a
1 * n
14737-79
150 o*8i
23-834
N.13 I743-5
132746-7
lOI'OI
O
342 13*28
23-803
N.19 18 21*6
47-^4
I
23-839
100-05
I
3 44 36-07
23*793
1923 0-8
45 '9»
2
1 52 23-86
15446-93
23-843
13 37 44-1
99*08
2
34658-80
23-784
1927 32*6
44-69
3
23-848
134735-6
98*09
3
34921-48
*3*775
I9 3i57'i
43-47
4
1 57 10*03
23-852
135721-2
97-11
4
35144-10
23*764
193614-3
42-25
5
1 59 33-15
2 156-30
23-856
14 1634*6
96*12
5
3 54 6-^5
»3'753
194024*1
41-02
6
23-860
95-10
6
35629-14
23-742
194426*5
39*79
1
2 642*66
23-863
14 26 2*1
94' 08
7
35851-56
23*730
194821*6
38-57
23-867
143523-6
144438*9
93-07
8
4 113-90
23*718
1952 9-3
37'34
9
2 9 5-88
23-871
92-03
9
4 3 36-I7
23*705
19 55 497
36*12
10
2 II 29-II
23-874
145348-0
90*98
10
4 558*36
23-692
195922-7
34-89
11
21352-37
2 16 15-65
23*878
15 250-7
89*93
11
4 820-47
23-678
20 248*4
33-67
12
23-882
I5II47-2
88*88
12
4 1042-50
23*664
20 6 6-7
3* '43
13
2 1838-95
23-884
152037-3
87*82
13
4i3 4'44
23*649
20 9 17*6
31*21
H
2 21 2*26
23-887
15 292I-O
86-75
14
4 15 26-29
23*634
20 12 21-2
29-99
J 5
22325-59
23*889
153758-3
85-67
l l
41748-05
2.3*619
201517-5
2018 6-4
28-77
16
22548-93
2 28 I2'28
23*891
15 46 29- 1
84-58
16
420 9-72
23*603
*7*53
i i
23-893
I554 53-3
83-49
l l
422 31*29
23*586
202047*9
26*32
18
23035-65
23-895
16 3 II'O
82-39
18
42452*75
24*568
2023 22 * 2
25-10
19
2 32 59-O2
23-897
l6 II 22*0
81-28
19
427 14-11
23*552
202540-1
2028 8*7
23-88
20
2 35 22'4I
23*898
l6 I926-4
80-17
20
429 35-37
*3'534
22*66
21
23745-80
23-899
1627 24-I
79-05
21
43156-52
23*516
203021*0
21*45
22
24O 9*20
23*900
1635 I5-0
77-92
22
4 34I7-56
43638*48
23'497
2032 26*1
20*23
23
2 42 32*60
23-900
N.1642 59'2
76-80
23
23-478
^203423*8
19*02
Satubd,
AT 2.
MONDA
Y 4.
2 44 56*00
23*901
N.i6 50 36-6
75-67
O
43859*29
44119-98
23*458
N.20 36 14*3
17-81
I
24719-41
23*901
1658 7-2
74' 5 *
I
23-438
203757*5
x6*6o
2
24942-81
23*900
17 5 30-8
73 '37
2
443 40-54
446 0-98
23-417
203933-5
15-40
3
2 52 6*21
23-900
17 1247-6
72*22
3
23*396
2041 2*3
14*20
4
2 5429-61
23*899
171957-5
71-07
4
44821-29
*3'373
2042 21-9
204338-3
13-00
5
2 5653*00
23-898
1727 0-4
69-90
5
45041-46
*3'35*
zi*8o
6
2 59 10-38
23-896
173356-3
68*73
6
453 1-51
23-330
204445-5
io-6i
7
3 i39'75
23-894
174045-2
67*56
i
45521-42
23*306
204545-6
2046 38-5
9-42
8
3 4 VII
23*892
174727*0
66-38
4574i-i8
23*283
8-23
9
3 626-45
23-888
1754 i-8
65-21
9
5 o-8i
23-259
204724-3
2048 3*0
7-04
10
3 849*77
23*886
18 029*5
64-03
10
5 220*29
23-235
5-86
11
3 11 13-08
23-882
18 650-1
62*83
11
5 i 3 2'o 3
5 658-81
23-210
204834-6
4-68
12
3 13 36-36
3 I 5 59'6*
23-878
l V* y l
61-64
12
23-184
2048 59-2
2049 16-7
3*51
l 3
23*875
18 19 9-8
1825 8-9
60-45
13
5 917-84
23-159
2*34
H
3 18 22-86
23*871
59'»5
14
5 11 36-72
23-133
204927*3
i-i8
i|
3 2046-07
23*866
1831 o-8
58-05
i|
51355-44
5 16 14*00
23*107
20 49 3°*8
0*01
16
323 9-25
23*861
183645-5
56-84
16
23*080
204927-4
1*15
»
32532-40
*3'855
1842 22*9
55^3
17
5 18 32-40
23*052
2040 17*0
204859-7
2*31
3*7 55*51
23-848
184753*1
54*43
18
5 20 50-63
23*024
3-46
19
3 30 18-58
23*842
18 53 16-1
185831-8
5322
19
523 8-69
22-997
204835-5
4* 60
20
33241-61
23-835
52-01
20
52526-59
22*969
2048 4-5
204726*6
5'74
21
3 35 4-6o
23-827
19 340-2
50-79
21
52744-32
530 1-87
22*940
6-88
22
33727-54
23*820
19 841-3
49-58
22
22*910
204641-9
8*02
^3
33950-44
23*812
191335-1
48-36
23
53219-24
53436-44
22'88l
204550-4
9-14
H
3 42 13-28
23*803
N.19 18 21-6
47' H
24
22-852
N.20 44 52 • 2
10*26
Digitize
d by LjOOQ I
'
VI.
SEPTEMBER, 1882.
151
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Bight
Ascension.
Var.
in 10".
Declination.
Var.
lnio m .
W
Bight
Ascension.
Var.
ini©*".
Declination.
Var.
in ie*.
Tuesday 5.
Thuesdat 7.
h m ■ •
• it *
h m b ■
/ * »
O 5 34 3^44
22*852
N.20 44 52*2
10*26
O
72020*88
21*145
N.i757i2*3
57*13
I
53653-46
22*821
204347-3
204235-6
H'38
I
722 27-64
21* 108
175127-1
57*94
5391029
22*790
12*50
2
72434*17
72640*48
21*070
174537*0
58*75
5412694
22*759
2041 17*3
13*60
3
21*032
173942*1
59*55
5 43 43-40
22*728
203952*4
2038 20'Q
203642-8
14*70
4
72846-56
20*994
173342*4
60-33
54559-68
54815-76
5 50 31 65
22*697
15-80
5
73052-41
20*957
172738-1
6l '12
6
22*664
16*89
6
73258-04
20*920
1721 29*0
61*90 1
1
22*632
203458*2
17*98
I
7 35 345
7 37 8*53
20*883
I7I5I5-3
62*66
5 5*47*35
5 55 *'«5
22'600
2033 7*1
19*06
8
20*845
17 8571
63*42
9
22*567
2031 9*5
20*13
9
7 39I3-59
20*808
17 234-3
64*18
10
5 57i8-i5
22*534
2029 5-5
21*21
10
741 l8*J2
74322*84
20*771
1656 7-0
64*93
11
5593226
6 148-16
22*501
202655-0
22*28
11
20*734
164935*2
65*67
12
•2*467
2024 38-2
23*33
12
74527*13
20*697
1642 59*0
163618-4
66*40
J 3
6 4 2-86
6 17-35
6 831-64
22*433
20 22 15-T
24*38
13
74731*20
20*661
67*12
14
22*398
201945-7
*5*43
H
74935*06
20*624
1629 33-6
67*83
IS
22*365
20 17 io-o
26*47
l S
75138-69
20*587
162244-4
68*55
16
61045-73
22*330
20 1428*1
27*50
16
75342-10
20*551
16 1551-0
69*26
Is
6 12 59-60
22*294
20 II40'0
28*53
17
7 55 45-30
20*515
16 853*5
16 1 51-6
69*95
6 15 13-26
22*259
20 845*8
»9*55
18
75748-28
20*479
70*63
19
6 1726-71
22*224
20 545*4
30*57
19
75951*05
20*444
15 5445*7
7i*3*
20
61939-95
22*189
20 239*0
3i*57
20
8 153*61
20*408
154735*7
72*00
21
621 52-98
22*153
195926-6
3**57
21
8 3 55-95
20*372
154021*7
72*66
22
624 5*79
62618-38
22*117
1950 8-1
33*57
22
8 558*07
20*337
15 33 3-8
73*3*
*3
22'08l
N.I9 52 43-7
34*57
23
8 7 5999
20*303
N.15 a5 4i-9 73*98
Wedves
DAT 6.
Fbida
* 8.
628 30-76
22*045
N.1949'3'3
35*55
810 1*70
20*268
N.15 18 16*1
74*62
I
63042-02
632 54-06
22*008
194537-1
36*52
1
8 12 3*20
20*233
151046-5
75*26
2
21*972
194155-0
37*50
2
814 4*49
20*198
15 313*0
75*89
3
635 6-58
21*935
1938 7*1
38*47
3
Vi r 57
20*163
H55 35-8
76*51
4
63718-08
21*898
19 34 13 '4
39*42
4
8 18 6-45
20*130
H47 54-9
77*^3
5
63929*36
21*862
1930 14- 1
40*37
5
820 7*13
20*096
1440 io*3
77*73
6
641 40-42
21*824
1926 9*o
41*32
6
822 7*60
20*062
1432 22*1
78*33
I
64351-25
21*787
1921 58-3
42*26
?
824 7*88
826 7*95
20*029
142430*3
78*93
646 1-86
21*750
191741-9
43*»9
19*996
141634-9
14 836-0
79*53
9
648 12*25
21*712
19 13 20'0
44*ii
9
828 7*83
19963
80*11
10
65022*41
21 674
19 852*6
45*03
10
830 7*51
19-931
14 033-6
8o-68
11
65232*34
21*637
19 419-7
45*93
11
832 7*00
19-898
135227-8
81*25
12
65442*05
21*599
185941-4
46*83
12
834 0*29
836 5*39
19*866
1344 18*6
1336 6-i
81*81
*3
65651-53
21*562
x ? 54 57*7
47*73
13
19*834
82*36
H
659 0-79
7 1 0-83
7 318*63
21*525
1850 8*6
48*63
H
838 4*30
19*803
132750-3
82*91
15
21*487
1845 14-2
49*51
15
840 3*03
842 1*50
19*772
131931-2
83*44
16
21*448
184014*5
50*38
16
19*740
13 11 90
83*98
2
7 5*7'*i
21*411
1835 9-6
51*25
17
84359*91
84558*08
19*710
13 M3'5
84*51
7 735-56
21*373
182959-5
52*11
18
19*680
12 54 14-9
85*02
*9
7 943-68
"'335
182444*3
52*97
19
84756*07
19*650
124543-3
1237 8-6
85*53
20
71151-58
21*297
18 1923*9
53*8*
20
8 49 53-88
19*620
86*03
21
71359-2^5
716 6*69
21*259
18 i« 58-5
18 828*1
54* 65
21
! 51 5 I' s i
19*590
12 28 30*9
86*53
22
21*221
55*48
22
85348*96
19*561
12 19 50*2
87*02
*3
7 18 13*90
2I*l83
18 252*7
56*32
23
85546*24
19*532
12 11 6-7
87*50
24
72020*88
21*145
N.i7 57i2*3
57*13
H
85743-35
19*503
N.12 220*2
87*98
o
s*
SEPTEMBER, 1882.
VII.
MI
'S RIGHT J
SAN TIME.
THE MOON
LSCENSION AND DECLINATION.
I
Right
Ascension.
Var.
imo».
Declination.
Var.
in 10*.
i
llight
Ascension.
Vw.
in 10"*.
Declination.
Var.
in 1©-.
Satuedat 9.
UOVDAT II.
h m ■ •
Of* »
h n 1 •
/ <r *
O
8 5743 # 35
19-503
N.I2 2 20-2
87*98
to 28 42*69
I8-553
N. 4 18 II* I
102 -88
I
8 5940*28
19*475
II53 30-9
8844
I
103033*98
18*543
4 753'4
103*02
2
9 I37"°5
19*448
114438*9
88*90
2
1032 25*21
18-533
3 57 34*9
103*16
3
9 3 33 -6 5
19-420
II 2646*6
89-36
3
1034 16*38
18*524
347 155
103*30
4
9 5 3°*°9
9 726*36
19*393
89-81
4
1036 7*50
103758*57
18-516
336 55-3
103-43
5
19*366
II 1746-4
90*25
5
18*507
32634*3
3 l6 12*6
103-56
6
9 922-48
*9'339
II 843*6
90*68
6
103949*58
18*498
103-68
7
9 11 18*43
19-313
105938*2
91*11
7
104140*55
18-492
3 5 5o*2
103-78
8
91314-23
19-287
105030-3
9*'53
8
104331-48
18*484
2 55 27-2
103-89
9
915 9-87
19*261
I04I I9'9
91*94
9
1045 22-3*5
18*477
245 3*5
103-99
10
917 5-36
19*236
1032 7*0
9»'35
10
1047 13-20
18*470
2 34 39*3
104-08
11
9 19 0*70
92055-89
19*211
1022 51*7
9* "75
11
1049 4'00
18*464
22414-5
104-17
12
19*186
10 13 34*0
93 *H
12
105054*77
18-459
21349-3
2 323*6
104-24
*3
92250-03
92445-83
92640-59
19*162
10 4 14-0
93*53
"3
105245*51
18453
104*32
M
19*138
954 5i"7
93*91
H
105436*21
18*448
I52 57-5
104-38
15
19*115
94527-1
94-28
15
10 56 26*89
18445
1 42 31*0
io4"45
16
928 35*21
19*092
936 0-4
94-64
16
10 58l7*55
11 8-18
18-441
132 4'i
104-50
:s
9 3029*69
19*068
92631*4
95-01
17
18-437
1 21 37*0
104*55
9 32 24-03
19*046
9*7 o*3
95-36
18
II 158*79
18-434
111 95
104-60
'9
93418-24
19*024
9 i*r i
8575I-9
95-70
•9
11 34939
18-432
1 041*8
104*63
20
9 36 12-32
19*002
96*04
20
11 5 39*97
18*429
50 14*0
03946*0
104*65
21
938 6-27
18-981
848 14*6
96*38
21
11 7 3°*54
18-427
104-68
22
940 0*09
18-960
8 38 35'4
96*70
22
11 921*10
18*426
029 17*8
104-70
*3
94153*79
18-940
N. 82854*2
97-02
23
11 11 11-65
18*425
N. 1849*6
104-70
SlJHDA
r 10.
TUESDA
T 12.
9 43 47*37
18*920
N. 8 1911*1
97*33
11 13 2*20
18*424
N. 8 21*4x04*70
I
94540-83
18-900
8 926*2
97*64
1
11 I4 52-74
18-424
S. 2 6*?io4-7i
2
947 34*17
18-880
7 59 39*4
97*94
2
11 1643*29
18*425
01235*1104-70
3
94927-39
18*861
74950-9
98-23
3
111833*84
18-425
023 3-2104*68
4
9 51 20-50
18-843
740 0-7
98-52
4
11 2024-39
18-426
033 31*2 104-66
5
95313-50
18-825
730 8-7
98*80
5
11 22 14*95
18-428
43 59' V°4-6 3
05426*8 104*60
6
9 55 6 '4°
18*807
720 15-1
99-07
6
ii 24 5*53
18-430
?
95659-19
18-789
7 10 19-8
99*34
7
11 25 56-11
18-432
I 4 54 § 3 i°4*57
95851-87
18-772
7 023-0
99-60
8
11 2746-71
18*435
I 15 21*6104-52
9
10 044-45
18-756
6 5024*6
99*85
9
112937*33
18-439
12548*51104-46
10
10 236-94
18-740
64024*8
100*09
10
11 31 27*98
18*443
I 36 15*1 104-40
11
10 4 2 9'33
18-723
6 3023-5
100*34
11
113318*64
18-446
14641-31104-33
12
10 621*62
18*708
62020*7
100*58
12
n 35 9*33
18*451
157 7*1104-27
*3
10 8 13-82
18*693
6 10 16*6
100*80
13
1137 0-05
18*456
2 732*5104-18
14
10 10 5*93
18*678
6 11 • 1
101-03
H
11 3850*80
18-461
21757-3104-10
IS
10 11 57-96
18*664
5 5o 4*3
101-23
i§
114041-58
18 467
2 28 21*7 104*02
16
10 1349*90
18-650
5 39 5-5-3
101-43
16
11 42 32*40
18*473
2 38 45'5iI03*91
249 8-6103-81
l 7
10 1541-76
18-637
52947*1
101*64
17
114423*25
18*479
18
101733-54
18*623
5 19 36*6
101*84
18
114614-15
18*487
25931-2103-71
19
10 19 25*24
i8*6ei
5 9*5*°
102-03
19
11 48 5*09
11 49 56*08
18 * 494
3 953*1103-58
20
10 21 16-87
18599
45912*3
44858-5
102*21
20
18-502
3 20 14*2 103*46
21
1023 8-43
18*587
102*38
21
115147-11
18-510
3 30 34*6|io3-33
22
10.2459-92
18*576
43843*7
102-55
22
115338*20
18519
3 4o54*2'io 3 -i9
23
10 26 51*34
18-564
4 2827-9
102*72
23
II55 29-34
18*528
351 12*9103-05
S. 4 1 30*8102-90
24
10 2842*69
i8'S53
N. 4 18 ii-i
102*88
*4
11 5720-5318-537
Digitized by "<
VIII.
SEPTEMBER, 1882.
15
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
o
1
2
3
4
I
7
8
9
10
11
12
13
»4
If
18
*9
20
21
22
*3
O
I
2
3
4
5
6
7
8
9
10
11
12
14
15
16
17
18
19
20
21
22
23
24,
Right
Ascension.
Var.
In io".
Declination.
Var.
inio».
Wednesday
h m b •
11 5720*53 18-5378.
11 59 11*78
12 1 3*09
12 254*46
12 445*9°
12 637*41
12 828*98
12 10 20*6
12 12 12*3
13-
12 14 4*16
12 15 56-05
12 1748*02
12 1940-07
12 21 32-21
1223 24*44
12 25 16-76
1227 9-18
1229 I '7°
123054*31
12 3247-03
123439-85!
12 3632*77
12 38 25-81
1240 18-95
1242 12-21
1244 5*58
124559-07
1247 5^-68
124946-41
12 51 40-27
125334-25
12 55 28*36
12 5722-60
12 59 16-98
13 1 11-49
13 3 6-14
5 0-93
655-86
_ 850-93
13 1046-15
13 1241*52
13 4 37^4
13 16 32-70
13 18 28*52
13 2024*50
13 22 20*64
132416-93
132613-39
13 28 IO'OI
*3
'3
*3
537
547
557
568
579
590
602
61$
628
641
655
668
682
697
713
728
745
761
778
795
812
830
848
867
s.
Thursday
886
905
925
945
966
987
008
029
052
074
097
120
H3
167
191
216
241
265
290
3^7
343
369
396
4*3
45i
S.
o / *
4 I 30*8
4II47-
4 22 3-
432 18*8
442 32*8
45245*8
5 2 57 # 6
513 8
52317-9
5 33 26*2
543 33-3
553 39*1
i 34 n
6 13 46-6
62348-3
63348*5
64347*3
6 53 44-5
7 3 4o-2
71334-2
723 26-6
7 33*7-4
7 43 6
7 52 53
8 239
8 12 22
822 4
83144-3
841 22
85058
9 031-8
910 3*6
9 i 9 332
929 0-7
9 3826*0
94749-0
957 9'8
10 628*3
101544-4
102458*1
1034 9-3
1043 18*1
1052 24*4
11 128*1
11 1029-3
11 1927*8
11 2823-6
11 37 16*7
S.1146 7*0
102*90
102-75
102*59
102*42
102*25
102*07
101-88
101*69
101*49
101*28
101*07
100*85
100-63
100*40
100- 16
99*92
99*67
99'4*
99*14
98-87
98*60
98*32
98*02
97*73
97'43
97-12
96*80
96-47
96*14
95-8i
95 '47
95-12
94'7-S
94-40
94*03
93' °5
93"*7
92 88
92-48
92*08
91*67
91-26
90*83
90-41
89-98
89-53
89*08
88*62
88-15
Right
Ascension.
Var.
in io".
Declination.
Friday 15
b m ■
3 28 IO'OI
3 30 6*8o
332 37
3 34 o-8'.
33558*16
33755*63
3 39 53-27
34151-09
34349*08
3 45 47-26
34745-62
34944*16
3 5142*88
3 53 41*79
3 55 40-89
35740-18
35939-66
4 13933
3 39
5 39
7 39
9 39
4 11 40
•20
•26
19*451
19-478
19*506
I9-534
19*563
19*592
19*622
19*651
19*682
19*712
19*742
19*772
19-803
19*834
19*866
19*898
19*929
19*962
19*994
20-027
20*060
20-093
20-127
4 13 41*5020*160
S.i 1 46 7-0
"54 54-5
12 3392
12 12 21
122059
12*9 35
1238 8
12 46 38
"55 5*4
13 329-0
13 1149*4
1320 6*6
13 28 20*6
133631*3
134438*6
13 5242*6
14 043-1
14 840
14 16 33
142423
14 32 10
14 39 52
144732-0
S,i4 55 7'4
Saturday 16.
41542-56
41743*83
41945*30
421 46*
42348*85
42550*94
42753*24
42955-76
43158*48
4 34 1-41
436 4
4 38 7
440 11
44215
444 19
44623
44827
45032
45237*52
4 54 42'62
45647*94
45853*48
5 059*24
5 3 5"
5 5 1 1*43 21-053
20*194
20*228
20*262
20*296
20*331
20*366
20-402
20*437
20*471
20*507
20*543
20*578
20*614
20*650
20-687
20*723
20*758
20*796
20*833
20*868
20*905
20*942
20*978
21*016
S.I5 239*0
15 10 6*8
15 17 30*8
15 2450*8
1532 6*9
153919*1
154627-3
1553 3 I# 4
16 031-4
16 727*2
16 14 18*9
1621 6*3
162749*5
163428*4
1641 2*9
164733-0
165358*7
17 019*8
17 636*5
17 1248*6
17 18 56
172459
173057
1736 50
S. 17 42 39
Digitized by
Googk
»54
SEPTEMBER, 1882.
IX.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Bight
Ascension.
ini©" 1 .
Declination.
Tar.
in 10-.
1
Bight
Ascension.
Vir.
In io".
Declination.
Vsx.
ini©*.
SUHDAT 17.
Tuesday 19.
h m • ■
1 n »
h m • ■ * * "
O
15 511*4321-053
S.i74*39'2
57-70
O
16 5025-13
44*737
S.20 3442*3
11*58
I
15 717*85
21-089
1748 23-0
56-89
I
165241-64
22*767
203548*5
1,0*48
2
15 924-50
21-127
17 54 J-9
56*08
2
165458*33
22 * 796
203648*0
9*36
3
151131-37
21-163
175936-0
18 5 s-i
55'*7
3
165715-19
22*825
203740*8
8*45
4
151338-46
21*201
54'43
4
16 59 32*23
22*854
20 3827*0
7-13
5
151545-78
21*238
18 1029*2
18 1548-2
53*59
5
17 I49-44
17 A 6*82
17 624-37
17 842*08
22*883
2039 6*4
6*oi
6
151753-31
21-274
5**75
6
22*911
203939*1
4-88
7
1520 1*07
21*312
1821 2*2
5'*9*
7
22*938
2040 5*o
3*73
8
1522 9*06
21*350
18 26 ii-i
51*05
8
22*966
204024*1
2-61
9
15 24 17*27
15 2625*70
2I-387
18 31 14-8
50*19
9
17 1050-96
17 13 i8*oo
42*993
204036*3
i-47
10
2I-424
183613-4
1841 67
49 '3»
10
23*020
•£•104041-7
0'3*
11
152834-36
21 -462
48*44
11
17 15 36-20
23*046
204040*3
0-82
12
153043-24
21*498
184554-7
47-56
12
I7I7 54-55
23*072
204031*9
1-98
*3
153252-34
»i '535
185037-4
185514-8
185946-7
46*67
13
1720 13-06
23*098
2040 16-0
3-i3
H
1535 i-66
21*572
45-78
14
1722 31*72
23*123
203954*4
4-28
15
15 37 II-20
21*609
44*«7
15
172450-53
23-147
203925*2
5*45
16
153920-97
21*646
19 413-2
43*97
16
1727 9*48
172928-57
23*170
203849-0
6*62
17
154130-95
21*682
19 834*3
19 1249-8
43-05
17
23*194
2038 5*8
7-78
18
154341-16
21-719
42*12
18
173147*81
23*218
20 37 15*6
8-95
19
i5455*'58
1548 2*23
21-756
19 16 597
41-19
19
1734 719
23*241
2036 18*4
10*13
20
21-793
1921 4*1
40*26
20
17 3626*70
23*263
2035 14*1
11*31
21
15 50 13-09
21-828
1925 2*8
39*34
21
I73846-35
23*286
2034 2*7
12-49
22
155224-17
21*865
192855-9
38*37
22
1741 6*13
23*308
203244*2
13-68
*3
15 54 35*47
21*901
8.193243*2
37-4'
23
1743 26*04
43-348
S.20 31 18-6
14-86
MOffDA 1
l 18.
Wednesday 20.
15 5646-98
21-937
8.193624*8 36*45
174546-07
I748 6*22
43'348
S.20 2945*9
16*04
I
155858-71
21-972
1940 o-6
35-48
1
23*369
2028 6*i
17*23
2
16 1 10*65
22*007
194330*6
34-51
2
175026-50
23*390
2026 19- 1
18-43
3
16 322*80
22*043
194654-7
33'53
3
175246*90
43-409
202424*9
19*63
4
16 535-17
22*079
1950 12-9
3»*54
4
17 55 7-41
I7 57 28*04
23*428
2022 23*5
20*83
5
16 747'75
22*114
19 53 25*2
31*55
5
43-447
2020 15*0
22*02
6
16 10 0*54
22-149
195631-5
30*55
6
I75948-77
18 2 9-61
23*464
201759*3
23*22
1
16 12 13*54
22*183
I9 59 3I-8
*9*54
7
23*482
2015 36-3
44*43
16 1426*74
22*218
20 2 26*0
48*53
8
18 430*56
18 651*61
23*500
2013 6*i
25*63
9
16 1640*15
22*253
20 5 I4-2
27-52
9
23*517
20 1028*7
2683
10
161853-77
22-287
20 756*2
26*48
10
l8 912*76
43*533
20 744-1
28-04
11
16 21 7-59
22*321
20 I0 32'0
25*46
11
l8 II 34*00
43-548
20 452-2
49^5
12
16 23 21*62
22*355
2OI3 I'7
44-43
12
I8I3 55-34
18 1616-77
23-564
20 1 53 -1
195846-7
30*46
13
162535-85
22-388
20 15 25-I
23*38
13
43-579
31:67
14
1627 50-27
22*420
20 1742-3
22*34
14
l8 1838*29
43-593
195533-1
32*88
15
1630 4-89
22-453
20 I9 53'2
21*28
15
18 2059*89
1823 21*58
23-607
19 52 12*2
34-09
16
1632 19*71
22*487
2021 57*7
20*23
16
23*621
I94844-O
35-30
l l
1 6 34 34*73
22*518
202355-9
19*17
17
182543-34
23*634
1945 8-6
36*5I
18
163649-93
22*550
202547-7
18-09
18
1828 5*19
23*647
194125*9
37*73
19
1639 5 - 33
22*582
202733*0
17*02
19
18 3027*11
23-659
193735-9
38-93
20
16 41 20*92
22*614
2029 11*9
15-94
20
18 3249*10
23-671
193338-7
40-13
21
16 43 3 6 '7°
22*645
203044-3
14*86
21
18 35 11-16
23*682
192934*3
I925 22*6
41-34
22
1645 52-66
22-675
2032 10*2
13-77
22
183733-29
23-693
44'56
23
1648 8-80
22*706
20 33 29*5
12*68
23
183955-48
23-704
I92I 3*6
43-77
24
16 5025-13
22-737
S.20 3442*3
11*58
H
184217*74
23-7158.191637*4
44'97
Digitized by
Got
o
X.
dj&jrii!
jlVliJ
SlBjJ
It, I88J
1.
155
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
Right
Ascension.
in 10".
Declination.
Var.
in io".
1
Right
Ascension.
Var.
inxtf".
Declination.
Var.
initf".
Thursday 21.
Saturday 23.
b m 8 s
1 it
#
has s
t *
O
184217-74
184440-06
23-715
S.19 16 37*4
44*97
O
20 36 36*10
23*807
8.132732*3
98-51
I
23-724
19 12 4*0
46-18
I
203858*93
23*803
131738*4
99-47
2
1847 **43
*3*733
19 7233
47-38
2
2041 21*74
23*799
13 7387
100*42
3
184924*86
23-742
10 235-4
185740-3
48-58
3
204544-52
2046 7-29
23-796
125733-4
101*34
4
185147-33
1854 9-86
23-750
49-78
4
23*793
124722*6
102*27
5
23*759
18 52 38*0
50*98
5
2048 30*04
23*789
12 37 6*2
103-18
6
185632-44
23-767
184728-5
52-18
6
205052*76
23-786
122644*4
104*09
1
185855-06
23*773
1842 11-9
53-38
?
2053 1547
23*782
12 1617*1
104-98
19 1 17-72
23-780
183648*0
54-S8
205538-15
23*778
12 544*6
11 55 6*7
105*87
9
19 340-4*
19 3-16
23-787
l8 31 I7'0
1825 38-9
55-76
9
2058 o-8i
23*775
106*75
10
«3'793
56-94
10
21 023*45
23*772
114423*6
107*61
11
19 825-94
23-799
181953-7
58*13
11
21 246*07
23*768
" 33 354
108*46
12
191048-75
23-804
l8 14 1*4
18 8 2-0
59*31
12
21 5 8*67
23-7*5
11 2242-1
109*30
13
191311-59
23*809
60*49
*3
21 731*25
23*761
11 11 43*8
110*13
H
19 15 34-46
23-813
18 1555
61*68
14
21 9 53-80
21 12 16*33
21 1438-84
23*757
11 040*5
110*95
*5
191757-35
23-818
I7S541-9
62-85
l S
23*753
104932-4
1038 19*4
111*76
l6
19 2020*27
23-822
174921*3
64-02
16
23-751
112*56
17
192243*21
1925 6-17
23-825
174253-7
65-18
17
21 17 1-34
23*747
1027 i # 7
113*33
:i*
23*828
17 36 19*1
66*34
18
21 1923*81
21 21 46*26
23-743
101539-4
114*10
19
192729-15
23*832
1729 37*6
67*49
*9
23*740
10 4 12*5
114*87
20
192952-15
23-834
172249*2
68-65
20
2124 8*69
21 26 31*11
23-738
95241-0
1x5*62
21
19 32 15*16
23-836
17 15 53*8
69*80
21
23-735
941 5*i
116*35
. 22
193438*18
23-838
17 851-6
70*94
22
21 28 53*51
23-732
92924*8
117*07
1*3
1937 1*2223-840
S.17 142*5
72-08
*3
21 31 15-8923-728
S. 9 1740-2
117-78
Fbida
r 22.
SUHDAl
r 24.
19 3924*2623-841
S. 16 54 26*6
73*22
O
21 33 38-2523*726
S. 9 551*4118-48
1
194147*31
23-842
1647 3-9
74*35
I
21 30 0*60
23*723
8 53 58-5
1x9*16
2
1944 10*36
23-843
16 39 344
16 31 58-2
75*48
2
21 3822*93
23-721
842 1-5
119-83
3
194633-42
»3-»43
76*59
3
214045-25
23*718
830 0-5
120*49
, 4
1948 56-48
23-843
162415-3
16 1625-8
77-70
4
"43 755
23*716
81755-6
121*13
ii
19 51 19*54
23-843
78-81
5
21 45 29*84
23*714
8 5 46-9
121*76
I9 53 42-59
a3-843
16 829-6
16 026*8
79-92
6
214752-12
23-713
7 53 34*5
122*38
1
1956 5*65
23-843
81-01
1
215014-39
21 52 36*65
23*711
122*98
19 58 28*70
23 842
155217*5
82*09
23*709
72858-8
12356
9
20 051-75
23-841
'544 x"7
83*18
9
215458-90
23*708
71635-7
124-14
10
20 31479
20 5 37-83
23*840
15 35 39*4
84*26
10
21 5721*14
23*707
7 4 9'i
124-70
11
23-838
15 27 io-6
85-33
11
215943-38
22 2 5'6i
23*706
65139-3
125-24
12
20 8 0*85
23-836
I5i8 35 # 5
86*38
12
23-705
639 6*2
125-77
13
20 1023*86
20 1246*87
23-835
15 954-0
87*43
13
22 427*84
23-704
62630*0
126*28
»4
23-833
15 1 63
88*48
14
22 650*06
23-703
61350-8
126*78
15
20 15 9*86
23-830
1452 12*3
89-53
15
22 912*28
23-703
6 1 8-6
127*27
16
20 17 32*83
23*828
1443 12*0
90*56
16
22 II 34*50
22 13 50*72
22 l6 18*94
23-703
54823-5
127-75
*7
20 19 55 *8o
23-827
1434 5-6
91*58
:i
23-703
53535-6
128*20
18
2022 18*75
23823
142453-1
92-59
23-703
52245-1
128-64
19
202441*68
23-821
H x 5 34*5
93* 60
19
22 1841-16
23*704
5 V 1 * 9
45656-3
129*07
20
2027 4*60
23*818
14 6 99
94*60
20
2221 3*39
22 23 25*62
23*705
129-48
21
20 2927*50
23-815
135639-3
1347 2-8
95*59
21
23*706
44358-2
129*88
22
2031 50*38
23-813
96*57
22
22 25 47*86
22 20 10*10
23*707
43057-8
130*25
23
2034 13-25
23*810
133720-5
97' 54
23
23-708
41755-2
130*62
24120 3636-10
23-807
S.1327323
9851
24
22 30 32*36
23-711
S. 4 450*4
130*97,
Digitized by
Got
o
156
SEPT]
SMI
3E
R, 188
2.
XI.
MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
1
Right 1 Var.
Ascension. | in io».
Declination.
Var.
in io".
i
w
Right
Ascension.
Vir.
inio".
Declination.
Var.
in io«.
UOVDAT 25.
Wednesday 27.
h m ■ •
§ 9
h m b s
t 9
O
22 30 32*36
23-711
S. 4 4 5° - 4
130*97
O
025 I'll
24*078
N. 632 2*0
127*83
I
22 32 54*63
13*7I3
3 SI 43 " 6
131-29
I
027 25*62
24*091
64447*6
1*7*35
2
22 35 l6'9I
»3*714
33834*9
131*61
2
029 50*20
24*103
657 30*2
126-84
3
22 3739*20
23*717
32524-3
131-91
3
32 14*85
24*2x6
710 9*7
126*32
4
2240 I'jjl
2242 23*84
224446*18
23*720
3 12 I2'0
132*19
4
03439*59
24*129
72246*1
125*80
j
23*723
25858*0
132-46
|
037 4*40
24*142
73519*3
125*25
23*726
24542*5
132*70
6
3929*29
041 54*26
24*155
74749*1
124*68
7
2247 8*55
23*730
2 32 25*6
132*93
1
24*168
8 015*5
124*10
8
224930*94
*3*733
219 7-3
133-16
04419*30
04644*42
049 9*63
24*180
8 1238*3
123-50
9
225153-35
*3*737
* 5 47*7
133*37
9
24-194
82457*5
122*89
10
225415-78
23*741
1 52 26-9
•33*55
10
24-208
83713-0
122-27
11
22 56 38*24
23-746
139 5*1
133*71
11
05134*91
24*220
84924-7
121*63
12
2259 0*73
23*751
1 2542*4
133-86
12
054 0*27
24*233
9 132*5
120*97
13
23 123-25
*3*755
1 12 18-8
133*99
»3
05625*71
24-247
91336*3
120*28
M
*3 3 45*79
23 6 8*37
23*760
05854*5
134*11
H
058 51*23
24*260
9 25 35-9
119-59
15
23*766
04529-5
134*21
:§
17
1 1 16*83
24-273
93731*4
1x8-89
16
17
23 8 30*98
231053*63
23 13 16*32
23* 77*
23*778
032 4*0
018 38-1
134-28
i34 # 35
1 342-51
1 6 8*27
24*287
24-300
9 49 22 * 6
10 1 9*4
xi8-i7
117*43
18
23*784
S. 5 11 -8
134-40
18
1 834*11
24-313
10 12 51*7
116-68
19
231539*04
23*791
N. 8 14-7
134*43
19
1 11 0*03
24-327
102429*5
1036 2 -7
115-92
20
2318 i*8i
23-798
021 41*4
134*45
20
1 13 26*03
24-340
115*13
21
23 20 24*61
23*804
035 8-i
134*44
21
1 15 52-11
24*353
104731-1
"4*33
22
232247*46
23*812
04834*7
134-42
22
1 18 18-27
24*366
105854*7
"3*53
23
2325 10*35
23*819
N. 1 2 1*2134*39
23
1 2044*50
*4*37«
N.n 10 13*5 112*71
TUESDA
Y 26.
Thursd
LY 28.
232733*29
23 29 56*27
23*827
N. 1 1527*4
134*33
1 23 io*8i
24*392
N.II 21 27*2'ui-87
I
23*835
1 28 53-2
134-26
I
1 25 37*20
24*404
II 32 35*9111-02
2
23 32 19*31
23*843
1 42 18-5
134*17
2
128 3-66
24*416
"4339-4110*15
3
23 34 42'39
23*852
15543-2
134*06
3
1 30 30-19
24*428
"54 37-7,i°9**7
4
23 37 5*53
23-861
2 9 7*2
133*93
4
1 32 56*80
24*441
12 530-7108-38
5
23 3928*72
23*870
222 30*4
133*79
5
13523*48
*4*453
12 16 l8*3!i07-48
6
234151-97
23-879
23552*7
133*63
6
13750*24
24*465
1227 0'5Jio6-57
7
234415*27
2346 38*63
23-888
2 49 14*0
133H6
1
140 17*06
24-476
l2 37 37*2!io 5 -64
8
23*898
3 2 34"2
133*27
14243*95
24-488
1248 8'2|xo4-69
9
2349 2*05
23*908
3*5 53*2
133*06
9
14510*91
24*499
I2 58 33*5jio3*74
10
235125*52
23*918
3 29 10*9
132*83
10
I47 37-94
24*510
13 853*1102*78
11
235349*06
23*928
34227*1
132*58
11
150 5*03
24*521
13 19 6*8|ioi-79
12
23 56 12*66
23*938
35541-8
132*32
12
15232-19
24-532
13 29 14*6,100*81
13
23 58 36*32
*3*949
4 854*9
132*04
13
15459*41
1 57 26*69
24*542
133916*5! 99*81
14
1 0*05
23*961
422 6*3
131*74
H
24*552
134912*3 98-79
15
323*85
23*972
435I5-8
i3i'43
!$
15954-03
24*561
I350 2*0
14 845*5
97*77
16
5477 1
23*982
44823*4
131*09
l6
2 221*42
2 448*87
24*570
96*73
17
811*63
*3'993
5 128*9
130-74
17
*4*579
14 l8 22-8
95-69
18
10 35*63
24*006
51432*3
130-38
l8
2 716*37
24-588
142753*8
94-63
*9
12 59*70
O 15 23*84
24*018
52733*5
130-00
19
2 9 43-93
H*597
I4 37l8*4
93*57
20
24*029
54032-3
129-59
20
2 12 ii*54
24*605
I446 36*6
92-49
21
1748*05
24*041
55528*6
6 622*4
129*18
21
21439*19
24*613
145548*3
9i*4i
22
020 12*33
O 22 36*68
24*053
128*75
22
2 17 6*89 '24*620
15 453*5
90*32
23
24*065
6 19 13*6
128*30
23
21934*63
24*627
151352*1
89*21
24
O25 I'll
24*078
N. 6 32 2*0
127*83
24
2 22 2-4I
24*633
N.15 2244*0
88*09
Digitized by
Got
o
XII.
SEPTEMBER, 1882.
15
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
a
Right
Ascension.
Var.
Declination.
Var.
inio*.
1
Rigbt
Ascension.
Var.
inxtf".
Declination.
Var.
in io"».
Friday 29.
Saturday 30.
h m s ■
9 » 9
h m ■ s
1 » *
O
2 22 2*41
24-633
N.15 2244*0
88*09
321 14*47
24-651
N.1820 81
59>3
I
2 2430*23
2 2658*09
2 2925-98
24*640
15 31 29*2
86*97
I
32342*36
3 26 10*21
24-645
182559*1
57*86
2
24*646
1540 7*6
85*83
2
24*638
18 3142*4
56*58
3
24-651
154839*2
84*69
3
3 2838*02
24-631
183718*1
55*3*
4
23153*00
2 3421*85
2 4 *6 S 6
1557 3'9
83*54
4
331 5-78
24-623
18 42 46- 1
54*02
1
24*661
16 521*7
82-38
5
3 33 33*49
336 1*15
24-614
1848 6*4
5*'73
23649*83
24*665
16 13 32*5
8l*22
6
24*606
1853 18-9
185823*7
5i # 44
1
2391783
24-668
1621 36*3
80*04
i
33828*76
24*596
50*16
2414585
24*672
1629 33*0
78-87
34056*30
«4'585
19 320*8
19 8.10*2
48*87
9
24413:89
24-674
16 3722*7
77*68
9
34323*78
*4'574
47^8
10
24641*94
24-677
1645 5*2
76*48
10
3 45 51*19
24-562
19 12 51*7
46-28
11
249 lO'OI
24*678
165240*5
75**7
11
34818*53
24-550
191725*5
44-98
12
2 51 38*08
24-679
17 8*5
74-07
12
3 5045*79
»4*537
192151*5
43-68
*3
254 6* 16
24*680
17 729*3
7**5
13
35312*97
24523
1926 9-7
42-39
14
25634*24
24-680
171442*7
1721 48*8
71-62
14
35540-07
358 7*08
24-509
19 30 20*2
41-09
IS
259 2*32
24*680
70-41
*5
24-494
19 3422*8
39' 79
16
3 130*40
24-679
172847*6
173538*0
1742 22*8
69*18
16
4 034*00
*4*479
193817*7
38-50
II
3 3 58*47
3 626*53
24-677
67*93
II
4 3 083
24*463
1942 4-8
37*20
24-675
66-69
4 527-56
24-446
194544*1
35-89
19
3 «54*57
24-673
174859*2
17 55 28*I
18 149*4
65-44
19
4 7 54* 18
24*428
194915*5
34*59
20
3 II 22'6o
24-670
64*18
20
4 1020-70
24-411
195239-2
33-30
21
3 13 50*61
3 18 18*59
24-666
62-93
21
4 1247*11
24-392
19 55 55^
32*01
22
24*662
18 8 3*3
61-67
22
41513*40
H*373
1959 33
30-71
«3
31846*55
24-657
18 14 Q'5
N.1820 8*i
60*40
23
41739*58
*4*353
20 2 3*6
29-41
24
321 14*47
24651
59' J 3
24
420 5*63
24-332
N.20 456*2
28-12
PHASE
S OF
TH
E MOON.
a m
([ Last Quarter --------126*2
% New Moon ---------058*6
J First Quarter -.-.----. i 27*9
O Full Moon 17 9*9
h
<[ Apogee •--------.- i
([ Perigee ---------.- 7
Digitized by
Google
[ 5 8
SEl
Ti
GMBEj
K,
1882.
*
XIII.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L.
P.L.
$
and
Noon.
of
III\
of
VP.
of
IX".
of
Position.
dift
diff.
diff.
diff.
o # n
t *
O 9 »
1 *
I
FomalhautW.
6o 47 54
2824
62 21 50
2820
63 55 52
2818
65 29 56
2818
a Pegasi W.
40 53 »5
39 6 35
2552
42 33 26
37 18 5i
*545
44 13 37
2540
45 53 54
2538
Aldebaran E.
2229
2248
35 3 1 35
2267
33 44 47
2287
Jupiter E.
58 9 59
2246
56 22 40
2262
54 35 44
2278
5; 49 13
2295
Pollux E.
8l 41 22
2281
79 54 54
2298
78 8 51
2315
76 21 13
124 8 20
*333
Sun E.
129 9 I
2527
127 28 25
*543
125 48 11
*559
*57S
2
Fomalhaut W.
73 19 33
2843
74 53 5
2852
76 26 26
2862
77 59 33
2873
a Pegasi W.
54 14 59
*559
55 54 5i
2567
57 34 3*
2576
59 14
38 52 13
62 34 20
2587
Jupiter E.
44 * 53
2383
42 iS 54
65 58 46
2401
40 35 20
2419
*437
Pollux E.
67 41 42
2427
*447
64 16 19
2467
2489
Sun E.
"5 54 55
2664
114 17 27
2682
112 40 23
2700
in 3 43
2719
3
FomalhautW.
85 41 12
2942
87 12 38
2958
88 43 43
»975
90 14 27
2992
a Pegasi W.
67 27 33
2646
69 5 25
2660
70 42 59
2673
72 20 15
2687
a Arietis W.
23 56 37
*755
*5 32 4
»739
27 7 52
2729
28 43 53
40 16 32
98 25 4
2723
Pollux E.
54 11 5«
2598
52 32 54
2621
50 54 27
2644
2669
Sun E.
103 6 33
281Z
101 32 19
2830
99 58 30
2848
2866
4
FomalhautW.
97 4* 35
80 21 49
3086
99 11 2
3107
100 39 3
3127
102 6 40
3H9
a Pegasi W.
2760
81 57 10
*775
83 32 11
2789
85 654
2804
a, Arietis W.
36 44 31
»735
38 20 24
2742
39 56 8
58 7 11
87 41 47
2750
4i 31 4i
2758
Pollux E.
41 15 24
2802
39 40 58
2832
2863
36 34 5
86 11 21
2896
Sun E.
90 43 43
*955
89 12 34
*973
2989
3006
5
a Pegasi W.
92 55 36
2877
94 28 24
2892
96 53
2906
97 33 4
2921
a Arietis W.
49 26 27
2808
51 45
2818
52 34 50
2828
54 8 41
2839
Saturn W.
27 51 41
2741
29 27 27
«754
31 2 55
2766
32 38 7
*779
Sun E.
78 44 18
3087
77 15 5*
3102
75 47 45
3116
74 19 55
3131
6
a Arietis W.
6 * 54 35
2890
63 27 7
2900
64 59 26
2910
66 31 32
2919
Saturn W.
40 30 7
2838
42 3 46
2849
43 37 "
2860
45 10 21
2870
Aldebaran W.
28 32 33
2879
30 5 19
2886
31 37 56
64 13 2
2894
33 10 «3
2902
Sun E.
67 5 6
3199
65 38 56
3213
3225
62 47 23
3*37
7
a Arietis W.
74 9 9
2964
75 40 7
54 *4 58
2972
77 10 55
2981
78 41 32
2988
Saturn W.
5* 53 »
2918
2927
55 56 43
*935
57 28 17
*943
Aldebaran W.
40 50 12
2940
42 21 40
2946
43 53
23 48 34
*9S4
45 24 10
2962
Jupiter W.
20 47 42
2986
22 18 12
2993
2998
25 18 50
3004
•
Sun E.
55 4* 34
3294
54 18 16
3304
52 54 9
3315
5i 3° 15
33*4
8
a Arietis W.
86 12 18
3024
87 42 1
3031
89 11 36
3037
.90 41 3
3043
Saturn W.
65 3 42
2980
66 34 20
2986
68 4 50
2993
69 35 12
2998
Aldebaran W.
52 57 50
32 48 16
*995
54 28 9
3000
55 58 "
3006
57 28 27
3012
Jupiter W.
3034
34 17 47
3039
35 47 11
3<>44
37 16 29
3050
Sun E.
44 33 27
337i
43 I0 37
3379
4i 47 57
3383
40 25 27
3396
9
a Arietis W.
98 6 30
3070
99 35 16
3076
101 3 55
3081
102 32 28
3086
Saturn W.
77 5 19
3024
78 35 2
3029
80 4 39
67 56 7
3033
81 34 11
3<>37
Aldebaran W.
64 57 16
3036
66 26*44
3040
3044
69 25 25
3048
Jupiter W.
44 4' 23
33 35 18
3<>74
46 10 5
3078
47 38 42
3082
49 7 13
3085
Sun E.
3438
32 13 44
3447
30 52 21
34SS
29 31 7
3464
IO
Saturn W.
89 42! 3053
90 29 49 3056
91 58 52 3059
93 2 7 52 3061
Digitized by VjOC
O
XIV.
SEPTEMBER, 1882.
I5S
MEAN TIME.
LUNAR DISTANCES.
#
Star's Name
P.L.
P.L.
P.L*
P.L.
£
and
Midnight.
of
XV*.
of
XVH1\
of
XXP.
of
Position.
difi
diff.
diff.
diff.
1 9
t ft
or*
O 1 H
I
FomalhautW.
67 4 1
2820
68 38 3
2824
70 12
2829
71 45 51; 2835
a Fegasi W.
47 34 14
*539
49 H 33
2542
50 54 48
2546
52 34 58,255*
Aldebaran K
31 58 28
2308
30 12 40
2330
28 27 24
»353
26 42 41 2377
Jupiter E.
51 3 6
74 38 2
23x3
49 17 *5
2330
47 3* 9
*347
45 47 J 8 ^365
69 25 6 2407
Pollux E.
2350
72 53 16
2369
7i 8 57
2389
Sun E.
122 28 51
2593
120 49 47
26x0
119 11 6
2627
117 32 48 2646
2
FomalhautW.
79 32 26
2886
81 5 3
289?
82 37 24
64 10 56
2912
84 9 28 2927
a Pegasi W.
00 53 13
2597
62 32 13
2609
2621
65 49 23' 2633
Jupiter E.
37 9 3i
60 52 51
2456
35 27 16
2475
33 45 27
H93
32 4 42512
Pollux E.
2510
59 " 5i
»53*
57 31 21
»553
55 5 1 *i;»S75
Sun E.
109 27 28
2738
107 51 38
2756
106 16 12
*774
104 41 10 2793
3
FomalhautW.
91 44 50
3010
93 H 5i
3028
94 44 *9
3047
96 13 44 1 3066
78 46 9 2745
a Pegasi W.
73 57 I*
2701
75 33 5o
31 56 13
2716
77 10 9
2730
a Arietis W.
30 20 2
2722
2723
33 35 *3
2725
35 8 30; 2729
Pollux E.
47 39 10
2693
46 2 21
2719
44 26 7
*745
42 50 27 2773
Suh E.
96 52 2
2884
95 19 23
2902
93 47 7
2920
92 15 142938
4
FomalhautW.
103 33 50
3172
105 33
3194
106 26 50
32x8
107 52 38 3241
a Pegasi W.
86 41 16
28x8
88 15 20
2834
89 49 4
46 17 11
2848
91 22 30' 2863
a Arietis W.
43 7 4
2768
44 4* 14
2778
2787
47 5i 56 *79*
Pollux E.
84 41 16
2932
33 30 3
83 11 32
2971
3i 59 14
3013
30 29 17 3059
Sun E.
3023
3039
81 42 7
3056
80 13 3 3071
5
a Pegasi W.
99 4 56
»935
100 36 30
2950
102 7 45
2964
103 38 43 2978
a, Arietis W.
55 42 18
2849
57 15 4*
2859
58 48 53
2870
60 21 50*2880
Saturn W.
34 13 *
2791
35 47 42
2804
37 22 5
69 58 12
28x5
38 56 14*2827
Sun E.
72 52 23
3146
71 25 9
3160
3173
68 31 31*3187
6
a Arietis W.
68 3 27
2929
69 35 9
48 16 3
2937
71 6 41
2947
72 38 o ( 2 9 55
Saturn W.
46 43 19
2880
2890
49 48 35
2900
51 20 54 2909
Aldebaran W.
34 4* 40
2909
36 14 48
29x6
37 46 46
58 3 1 50
2924
39 18 34^93*
Sun E.
61 21 58
3H9
59 56 47
3261
3271
57 7 5
3283
7
a Arietis W.
80 12
2996
81 42 18
3003
83 12 27
3010
84 42 27
3017
Saturn W.
58 59 41
2951
60 30 55
2959
62 1 59
2966
63 32 55
2973
Aldebaran W.
46 53 11
2969
48 26 3
2976
49 5 6 46
2981
51 27 22' 2988
Jupiter W.
26 48 581 3010
28 18 59
3016
29 48 52
3022
31 18 38
3028
Sun E.
50 6 31 3334
48 42 59
3344
47 19 38
335*
45 56 27
3362
8
a Arietis W.
92 10 23!
3049
93 39 35
3055
95 8 40
3060
96 37 38
3065
Saturn W.
71 5 27! 3004
72 35 35 3009
74 5 36
3014
75 35 3 1
3020
Aldebaran W.
58 58 25' 3017
60 28 17! 3022
61 58 2
3026
63 27 42
3031
Jupiter W.
38 45 40; 3055*
40 14 45I 3060
4i 43 43
36 18 53
3065
43 12 36
3069
Sun E.
39 3 6
3405
37 40 55'34i3
34**
34 57 »
3430
9
a Arietis W.
104 55
3090
105 29 17
3094
106 57 34
3099
108 25 45
3103
Saturn W.
83 3 38
3040
84 33 J
3044
86 2 19 3048
87 31 32
305 X
Aldebaran W.
70 54 38
3052
72 23 46
3056
73 52 50I3058
75 21 51
3062
Jupiter W.
50 35 4i
3089
52 4 4
3092
53 3* * 3 3096
55 38
3099
Sun E.
28 10 3
3474
26 49 10
34»S
25 28 29 349 6
24 8 3508
10
Saturn W.
94 5 6 49
3064
96 25 43
3065
97 54 35 3067
99 23 25 3069
Digitized by '
jOCK
5o
SEPTEMBER, 1882.
xv.
MEAN TIME.
LUNAR DISTANCES.
f
Star's Name
and
Position.
Noon.
P.L.
of
diff.
up.
P.L.
of
.diff.
VP.
P.L.
of
diff.
IX\
PX.
of
diff.
Aldebaran W.
Jupiter W.
Sun E.
1 ff
76 50 47
56 28 49
22 47 44
3064
3101
35"
1 •
78 19 41
57 56 57
21 27 44
3068
3104
3537
1 *
79 4« 30
59 25 2
20 8 1
3070
3106
3555
1 w
8l 17 17
60 53 4
l8 48 38
3<>7*
3108
3576
3
Sun
Antares
a Aquila
W.
E.
E.
ir 8 40
66 55 31
117 12 45
379*
3098
3601
12 23 50
65 27 19
115 54 12
37*4
3097
3586
13 40 12
63 59 6
114 35 23
3672
3096
357*
14 57 29
62 30 52
113 l6 18
363a
3095
3559
4
Son
Antares
a Aquil©
W.
E.
E.
21 32 10
55 9 20
106 37 35
3522
3089
3504
22 52 10
53 4o 57
105 17 15
3508
3087
3495
24 12 25
52 12 32
103 56 45
3496
3085
3486
25 32 53
50 44 4
102 36 5
3485
3084
3477
5
Sun
Antares
a Aquiloe
W.
E.
E.
32 18 3
43 21 16
95 5o 29
3439
3°74
3439
33 39 35
4* 52 35
94 28 57
3431
3073
3434
35 1 17
40 23 53
93 7 19
34*3
3072
3427
36 23 7
38 55 9
9i 45 33
34H
3071
34*i
:6
Sun
Mars
Antares
a Aquiloa
W.
W.
E.
E.
43 14 42
17 58 9
31 31 12
H 55 7
337*
3288
3070
3395
44 37 3°
19 22 34
30 2 25
83 32 45
33*4
3*73
3071
339 1
46 28
20 47 17
28 33 40
82 10 18
3354
3258
3074
3386
47 23 37
22 12 18
27 4 5?
80 47 46
3345
3*44
3079
3383
17
Sun W.
Mars W.
a AquiUe E.
Fomalhaut E.
54 22 4
29 21 10
73 54 8
102 21 32
3296
3183
3368
3407
55 46 20
30 47 39
72 31 15
100 59 24
3*85
3171
3367
3393
57 10 49
32 14 23
71 8 21
99 3 6 59
3*74
3158
3366
3379
58 35 31
33 4i 22
69 45 26
98 14 18
3263
3H7
3365
3365
[8
Sun W.
Mars W.
Venus W.
a Aquilse E.
Fomalhaut E.
65 42 26
40 59 56
19 41 54
62 50 57
91 17 7
3202
3084
3212
3374
3302
67 8 33
42 28 25
21 7 49
61 28 11
89 52 58
3189
3070
3X97
3379
3290
68 34 55
43 57 "
22 34 2
60 5 30
88 28 35
3X75
3<>57
3183
3385
3*79
70 1 34
45 26 13
24 31
58 42 56
87 3 59
3162
3043
3168
339*
3268
*9
Sun W.
Mars W.
Venus W.
a. Aquila) E.
Fomalhaut E.
z Pegasi E.
77 19 4
52 55 45
31 17 27
51 52 46
79 57 53
97 1 11
3088
2971
3092
34SS
3218
2881
78 47 28
54 26 34
32 45 47
50 31 32
78 32 5
95 28 28
3073
*955
3076
3475
3209
2866
80 16 11
55 57 43
34 14 26
49 10 40
77 6 7
93 55 26
3057
2939
3060
3499
3202
2851
81 45 13
57 29 12
35 43 24
47 50 15
75 40
92 22 4
3040
2924
3043
,35*6
3195
2836
to
Sun W.
Mars W.
Venus W.
Fomalhaut E.
a Pegasi E.
89 15 33
65 11 44
43 13 30
68 27 26
84 30 20
2956
2841
*9S7
3168
2760
90 46 41
66 45 19
44 44 37
67 38
82 55
2938
2823
*939
3166
2744
92 18 11
68 19 17
46 16 6
65 33 48
81 19 19
2920
2806
2921
3164
2730
93 50 4
69 53 37
V 4 J S l
64 6 56
79 43 19
2903
2788
2903
3165
2714
KI
Sun W.
Mars W.
Venus W.
Antares W.
Fomalhaut E.
a Pegasi E.
101 35 15
77 5^ »
55 33 "
32 55 17
56 55 21
71 38 20
2810
2698
2809
2551
3192
2642
103 9 30
79 27 54
57 7 28
34 35 20
55 27 2
70 22
2792
2679
2790
2527
3*05
2628
104 44 8
81 5 2
58 42 9
3 6 15 55
54 59
68 22 5
*773
2661
2771
2504
3221
2615
106 19 11
82 42 34
60 17 15
37 57 3
& 3S I5
66 43 30
*754
2642
2752
2482
3240
2602
12
Sun
Mars
1 Venus
W.
w.
w.
114 20 40
90 56 36
68 19 5
2661
2550
2656
115 58 12
92 36 40
69 56 44
2643
*53*
2637
117 36 9
94 17 9
71 34 48
2624
2513
2618
119 14 32] 2607
95 58 41*495
73 13 18 2600
Digitized by
Google
XVI.
SEPTEMBER, 1882.
161
MEAN TIME.
LUNAR DISTANCES.
i
Star's Name
and
Position.
Midnight.
P.L.
of
diff.
XV\
P.L.
of
dift
XVIII".
P.L.
of
diff.
XX1\
P.L.
of
dift
10
Aldebaran W.
Jupiter W.
Sun E.
/ »
82 46 1
62 21 4
17 29 37
3074
3601
1 *
84 14 42
63 49 I
16 II 4
3076
3113
3633
t *
85 43 21
65 16 55
14 53 6
3078
3114
3674
1 *
87 II 58
66 44 48
13 35 5i
3079
3115
3726
13
Son
An tares
a Aquiltt
W.
E.
E.
16 15 29
61 2 36
m 56 59
3600
3094
3546
17 34 3
59 34 19
no 37 26
3576
3<>93
3535
18 5 | 3
58 6 1
109 17 41
3555
3092
35*4
20 12 27
56 37 4'
107 57 44
3537
3091
3514
14
Sun
Antares
a Aquilae
W.
E.
E.
*6 53 34
49 15 35
101 15 15
3476
3082
3469
28 14 25
47 47 3
99 54 i5
3465
3081
3462
29 35 28
46 18 30
98 33 9
3456
3078
3454
30 56 41
44 49 54
97 " 53
3448
3077
3446
15
Sun
Antares
a Aquila
W.
E.
E.
37 45 8
37 26 24
90 23 40
3407
3069
34i5
39 7 17
35 57 37
89 1 41
3398
3068
3410
40 29 36
34 28 49
87 39 36
3390
3068
3404
41 52 4
33
86 17 24
3381
3069
3400
16
Sun
Mars
As tares
a Aquil©
W.
W.
E.
E.
48 46 56
23 37 35
25 36 24
79 25 10
3336
3231
3086
3379
50 10 26
*5 3 7
*4 7 57
78 2 29
3326
3*19
3095
3376
5 l H 7
26 28 53
22 39 41
7 6 39 45
3317
3207
3107
3373
5* 57 59
27 54 54
21 n 40
75 16 57
3306
3194
3124
3371
*7
Sun W.
Mars W.
a AquilaB E.
Fomalhaut E.
60 26
35 8 35
68 22 30
96 51 21
3*5*
3*35
3365
335*
61 25 34
36 36 2
66 59 34
95 28 10
3*39
3122
3367
3339
62 50 57
I 8 I 45
65 36 40
94 4 43
3**7
3109
3368
3326
64 16 34
39 31 43
64 13 47
92 41 2
3215
3097
337i
33M
18
Sun W.
Mars W.
Venus W.
a Aquilas E.
Fomalhaut E.
71 28 29
46 55 32
25 27 18
57 20 30
85 39 10
3148
3030
3153
3400
3*57
7* 55 4i
48 25 8
26 54 23
55 58 13
84 14 8
3133
3015
3138
341 1
3*47
74 23 "
49 55 *
28 21 46
54 36 9
82 48 55
3119
3001
3124
34*3
3*37
75 50 58
51 25 14
29 49 27
53 14 19
81 23 29
3103
2985
3108
3438
3228
*9
Sun W.
Mars W.
Venus W.
a Aquilas E.
Fomalhaut E.
a Pegasi E.
83 H 36
59 *
37 " 43
46 30 20
74 13 44
90 48 23
3014
2907
3026
3557
3x87
2821
84 44 19
60 33 10
38 42 23
45 "> 59
72 47 19
89 14 22
3008
2891
3010
3594
3181
2805
86 14 22
62 5 40
40 12 24
43 5* '8
71 20 47
•7 40 1
2990
2875
2993
3636
3176
2790
87 44 47
63 38 31
41 42 46
42 34 23
69 54 9
86 5 20
2973
2858
*975
3685
317*
*775
20
Sun W.
Mara W.
Venus W.
Fomalhaut E.
a Pegasi E.
95 22 19
71 28 20
49 20 13
62 40 5
78 6 58
2884
2770
2884
3166
2700
96 54 58
73 3 *7
50 52 52
61 13 15
76 30 18
2866
2752
2866
3169
2685
98 28
74 38 58
5* 25 54
59 46 23
74 53 18
2848
*734
2847
3175
2671
100 1 26
76 14 52
53 59 *i
58 19 50
73 15 59
2830
2716
2828
3183
2656
21
Sun W.
Mars W.
Venus W.
Antares W.
FomalhautE.
a Pegasi E.
107 54 39
84 20 32
61 52 46
39 38 4*
I 1 9 S l
65 4 38
*735
2623
*733
2460
3264
2589
109 30 32
85 58 55
63 28 42
41 20 52
49 44 5$
63 25 28
2717
2605
2714
2438
3291
*577
in 6 49
87 37 43
65 5 4
43 3 32
48 20 37
61 46 2
2698
2586
2694
2417
33*4
2567
112 43 32
89 16 57
66 41 52
44 46 4^
46 56 53
60 6 21
2679
2568
2675
2397
33 6 3
2556
22
Sun
Mars
Venus
W.
W.
W.
120 53 18
97 39 24
74 5* 13
2588
*477
2582
122 32 29
99 zl 9
76 31 33
2570
2460
'2564
124 12 5
101 3 19
78 11 18
*553
*443
*545
125 52 4
102 45 53
79 5i 29
2536
*4*5
, S ,8
II
(nautical almanac, 1882.)
i6z
SEPTEMBER, 1882.
XVII.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
PX.
P.L.
PX.
5
and
Noon.
of
III*.
of
Vl\
of
IX*.
of
p
Position.
diff.
diff.
ditX
diff.
t n
O 1 *
O 9 H
0*0
22
Antares W.
46 30 21
»377
48 14 28
*357
49 59 5
2338
5i 44 9
2319
Fomalhaut E.
45 33 54
3408
44 " 47
346*
42 50 40
35*5
41 30 43
3597
a Pegasi E.
58 26 25
2546
56 46 16
2538
55 5 55
2530
53 *5 *3
96 3
2524
a Arietis E.
101 13 17
2383
99 29 18
2365
97 44 53
2348
2330
23
Venus W.
81 32 3
2510
83 13 2
*493
84 54 25
*477
86 36 11
2460
Antares W.
60 36 18
2229
62 24 2
2212
64 12 II
2x96
66 44
2180
a Pegasi E.
45 1 19
2519
43 20 32
2526
4i 39 55
2535
39 59 3i
2549
a Axietis E.
87 9 37
2247
85 22 20
223*1
83 34 39
2216
81 46 36
2202
Saturn E.
108 2 37
2193
106 13 59
2177
104 24 57
2162
102 35 32
2147
24
Venus W.
95 10 35
2386
96 54 30
2373
98 38 44
2360
roo 23 16
2348
Antares W.
75 9 17
2109
77 3
2096
78 51 9
2083
80 42 34
2072
a. Arietis E.
72 41 7
2137
70 51 4
2126
69 45
2x15
67 10 9
2x05
Saturn E.
93 « 54
2077
91 31 20
2065
89 39 27
2053
87 47 15
2042
25
Antares W.
90 3 43
43 8 26
2024
91 56 39
2017
93 49 46
20x0
95 43 4
2005
a Aquilas W.
2966
44 39 22
56 2 8
2895
46 11 47
2832
47 45 331*777
a Arietis E.
57 53 53
78 22 13
2070
2066
54 10 17
2063
52 18 20 2061
Saturn E.
1995
76 28 31
1987
74 34 37
87 2 50
1980
72 40 32 1975
Aldebaran E.
90 49 35
201 1
88 56 18
2004
1998
85 9 12
1992
26
a Aquilae W.
55 50 14
2579
57 *9 35
41 6 56
° i 1 i 33
2552
59 9 40
2528
60 50 14 2507
a Arietis E.
42 58 37
2073
2080
39 15 26
2090
37 24 12
2102
Saturn E.
63 8 15
1957
195*
59 18 49
1956
57 H 5
1956
Aldebaran E,
75 39 8
"975
73 44 54
1973
71 50 37
'973
69 56 21
1974
Jupiter E.
97 30 27
1989
95 3 6 35
1988
93 4* 42
1987
91 48 47
1987
27
a Aquilae W.
69 18 57
«44S
71 1 28
2440
72 44 6
H37
74 *6 49
*435
FomalhautW.
43 6 2 5
3104
44 34 30
3036
46 3 58
*975
47 34 42
42 8 25
29131
Saturn E.
47 5 1
1970
45 56 39
1976
44 * *7
56 38 8
1982
X990
Aldebaran E.
60 25 40
1990
58 31 50
1995
2002
54 44 37
2010
Jupiter E.
82 19 47
2001
80 26 14
2006
78 32 49
2012
7 6 39 34
20x9
Pollux E.
102 44 5
2061
100 52 6
2066
99 ° H
2071
97 8 30
2077
28
a Aquilae W.
83 7
*453
84 42 26
2461
86 24 34
2471
88 6 28
2483
FomalhautW.
55 « 3
*757
56 57 27
2738
58 33 16
2722
60 9 26
2710
a Pegasi W.
35 14 55
2501
36 56 7
*473
38 37 58
2452
40 20 19
2435
Saturn E.
32 41 27
2037
30 48 50
2049
28 56 32
2062
27 4 34
39 45 1$
61 41 26
2075
Aldebaran E.
45 *° *3
67 16 19
2059
43 28 21
2071
41 36 38
63 32 45
2085
2100
Jupiter E.
2063
65 24 23
2075
2087
2099
Pollux E.
87 52 37
2X20
86 2 9
2132
84 11 59
2144
82 22 7
2157
29
Fomalhaut W.
68 12 59
269I
69 49 51
2693
71 26 40
2698
73 3 Z2
54 6 21
2705
a Pegasi W.
48 56 12
2405
50 39 39
2408
52 23 3
2412
2417
Aldebaran E.
30 34 21
2X85
28 45 31
2206
26 57 12
2228
25 9 27
2252
Jupiter E»
52 20 51
73 I* 5
2170
50 40 38
2186
48 51 50
69 43 16
2202
47 3 26
67 56 31
2219
Pollux E.
2234
71 30 28
2251
2269
2288
30
Fomalhaut W.
81 4 6
2758
82 39 29
2772
84 14 34
2788
85 49 17
2804
a Pegasi W.
62 40 14
2465
64 22 17
30 22 10
*477
66 4 2
2491
67 45 28
2505
Jupiter E.
38 7 55
2310
2330
34 36 54
2350
32 52 7
2369
Pollux E.
59 9 58
2392
57 26 12
2415
55 42 59
2438
54 19
90 14 6
2462
Regulus E.
95 30 56
2298
93 44 53
132 52 56
2315
91 59 16 2334
2353
Sun E.
i34 3i 43
2606
2624
131 14 34 2643
129 36 38 2663
Digitized by '
O
XVIII.
SEPTEMBER, 1882.
i(
MEAN TIME.
LUNAR DISTANCES.
Star's Name
PX.
P.L.
P.L.
P.1
*
and
Midnight.
of
xv\
of
XVIIP.
of
XXI*.
of
Position.
di£
diff.
diff.
dill
1 *
Q t »
/ n
O t H
22
Airfares W.
53 *9 4i
2300
55 15 40
2282
57 2 6
2264
58 48 59
224
FomalhautE.
40 12 5
3681
38 54 58
3781
37 39 3 6
48 23 4
3897
36 26 13
403
a. Pegasi E.
5i 44 43
2519
50 3 56
2515
*5H
46 42 11
251
a Arietis E.
94 14 47
2313
92 29 6
2296
90 43 1
2279
88 56 31
226
*3
Venus W.
88 18 20
*444
90 52
2429
9i 43 45
71 28 46
24x4
93 27
240
An tares W.
67 49 42
2165
09 39 2
2149
"35
73 18 51
212
a Pegasi E.
a Arietis E.
38 19 26
79 58 "
2568
ai88
36 39 47
78 9 «5
2593
2174
35 42
76 20 18
2624
2x61
33 22 20
74 30 52
266.
2141
Saturn E.
100 45 44
2132
98 55 34
2118
97 5 *
2103
95 14 8
209*
24
Venus W.
102 8 6
«337
103 53 12
84 26 16
2326
105 38 34
2316
107 24 10
23d
Antarea W.
82 34 16
2061
205 X
86 18 31
2042
88 11
*°%\
a Arietis E.
65 19 18
2097
63 28 14
2089
61 36 58
208 X
59 45 3°
2071
Saturn E.
85 54 4 6
2031
84 2
2021
82 8 59
2012
80 15 43
200<
*5
Antares W.
97 3 6 3°
2000
99 30 4
1996
101 23 45
I99J
103 17 31
i99<
a. Aquilse W.
49 20 31
2728
50 56 34
2683
52 33 36
2644
54 " 3*
261c
a Arietis E.
50 26 21
2060
48 34 *i
2061
46 42 22
b6 57 28
2064
44 5o *7
65 2 54
206;
Saturn E.
70 46 18
1970
68 51 57
1965
1962
'95S
Aldebaran E.
83 15 25
1987
81 21 30
1982
79 27 28
1979
77 33 20
1976
26
a Aquil© W.
62 31 17
2490
64 12 44
*475
65 54 33
2463
67 36 38
H53
a Arietis E.
35 33 * 6
21x7
33 4* 43
2135
3 1 52 38
2x58
30 3 7
2184
Saturn E.
55 29 21
68 2 5
1957
53 34 39
66 7 52
1959
51 40 1
1962
49 45 27
1966
Aldebaran E.
1975
1978
64 13 43
86 7 11
1981
62 19 38
1985
Jupiter E.
89 54 53
1988
88 1
1991
1993
84 13 26
'997
27
a Aquil® W.
76 9 34
49 6 3 1
2436
77 5* 18
H37
79 35
2440
81 17 37
2446
FomalhautW.
2879
50 39 17
2841
52 12 52
2808
53 47 9
278c
Saturn E.
40 14 35
1997
38 20 56
2006
36 27 31
20x6
34 34 21
2026
Aldebaran E.
52 51 18
2018
50 58 12
2027
49 5 19
2037
47 " 43
69 8 30
2048
Jupiter E.
74 46 29
2026
72 53 36
2035
71 56
2044
2053
Pollux E.
95 16 55
2084
93 *5 31
2092
91 34 19
2X0X
89 43 21
2x10
28
a Aquil® W.
89 48 5
H95
91 29 25
63 22 30
2509
93 10 26
2525
li 5 l 5
2541
FomalhautW.
61 45 52
270Z
2695
64 59 16
2692
66 36 7
2691
a Pegasi W.
4* 3 4
2422
43 46 7
24x4
45 29 22
2408
47 12 45
2405
Saturn E.
25 " 57
2090
23 21 42
36 3 39
2x06
21 30 52
2X23
19 40 28
2141
Aldebaran E.
37 54 **
21x5
2131
34 13 * 6
2148
32 23 40
2166
Jupiter E.
59 50 *5
80 32 35
2112
57 59 44
2126
56 9 25
2X40
54 19 26
2155
Pollux E.
2171
7» 43 H
2x85
76 54 34
220X
75 6 8
2217
29
FomalhautW.
74 39 55
2712
76 16 19
2722
77 52 29
*733
79 28 26
2 745
a Pegasi W.
55 49 3*
2424
57 3 2 3*
H33
59 i5 20
2442
60 57 55
*453
Aldebaran E.
23 22 17
2279
21 35 47
2309
19 50
2342
18 5 2
2381
Jupiter E.
45 15 *7
2237
43 2 7 54
2254
41 40 47
2272
39 54 7
60 54 16
2291
Pollux E.
66 10 14
2307
64 24 25
2328
62 39 6
2348
2370
30
FomalhautW.
87 23 40
69 26 34
2821
88 57 40
2840
90 31 16
2859
9* 4 *7
2880
a. Pegasi W.
2520
71 7 20
2535
72 47 44
*55i
74 27 47
2567
Jupiter E.
31 7 48
52 18 13
2390
29 23 59
2412
27 40 41
4» 55 48
*434
25 57 54
M55
Pollux E.
2487
50 36 42
2514
2540
47 15 3°
2568
Regulus E.
88 29 23
127 59 8
2371
86 45 7
2390
85 1 18
2409
83 17 56
2429
Sun E.
2682
126 22 4
2701 124 45 2b 2721 123 9 14 2741
Digitized by '
M 2
O
164
OCTOBER, 1882.
AT APPARENT NOON.
i
Q
i
1
THE SUN'S
Sidereal
Time of
the Semi-
diameter
passing
the
Meridian.*
Equation of
Time,
to be
eubLfiom
Apparent
Time.
Var.
in j
1 hour.
Apparent
Right Ascension.
Var.
in
1 hoar.
Apparent
Declination.
Var.
in
1 hour.
Sun.
Mon.
Tues.
1
2
3
h m 1
12 30 5*09
12 33 42*61
12 37 20-45
1
9-057
9-070
9*084
1 »
S. 3 15 0-9
3 38 17-7
4 1 3**
58*24
58*15
58*05
m •
1 4-36
1 4*40
i 445
m •
IO 2I S I4
10 40*13
IO 58-79
•
0*798
0-784
0*770
Wed.
Thur.
Frid.
4
5
6
12 40 58*64
12 44 37-21
12 48 l6-l6
9-099
9-115
9-131
4 *4 43*9
4 47 5** 6
5 10 57-8
57-93
57-79
57*64
1 4-50
1 4*61
ir 17*10
n 35-03
11 52-58
0*755
0*739
0*723
Sat.
Sun.
Mon.
I
9
12 51 55-52
12 55 35-31
12 59 15-54
9-149
9-167
9-186
5 33 59/1
5 56 5-5-2
6 19 48*6
57-47
57*28
57-08
1 467
1 +73
1 4- 80
12 9-73
12 26-45
12 42*72
0*706
0-687
0*669
Tues.
Wed.
Thur.
10
11
12
13 2 56-23
13 6 37-40
13 10 19-07
9-205
9*226
9*47
6 42 36-1
7 5 i8'*
7 27 54*5
56-87
56*63
5639
1 486
* 494
1 5-01
12 58-54
13 iv88
13 28-73
0-649
0*629
o*6o8
Frid.
Sat.
Sun.
13
15
13 14 1-24
*3 17 43*94
13 21 27-18
9-268
9*290
9*313
7 50 24-7
8 12 48*4
8 35 51
56*12
55 -«4
55-54
1 5-08
1 5*16
i 5-24
13 43*07
13 56-89
14 10-16
0*587
0-564
0-541
Mon.
Tues.
Wed.
16
13 25 10-98
13 28 55-35
13 32 4030
9*337
9-361
9'3*5
8 57 H'5
9 19 16*2
9 4i 9*7
55**3
54*90
54*55
1 5'33
1 541
1 5-50
14 22*88
14 3 H 3
14 40*60
0*5x8
0*494
0*470
Thur.
Frid.
Sat.
*9
20
21
13 36 2585
13 40 12-01
13 43 58-80
9-411
9'436
9*463
10 2 54-7
10 24 30*9
10 45 57-7
54-19
53-8i
5341
1 5*59
1 5-69
1 5 79
h 57-57
'5 7*93
15 17-67
o'444 t
0*419 1
0*393
Sun.
Mon.
Tues.
22
23
24
13 47 4623
13 5i 34*31
13 55 23-08
9-490
9-518
9*546
11 7 14-8
11 28 218
11 49 18-4
53-00
5*57
52-13
1 5-88
1 5-98
1 608
15 2677
15 35-22
15 42-99
0-366
0*338
0-309
Wed.
Thur.
Frid.
*5
26
27
13 59 "-54
14 3 2-72
14 6 5364
9-576
9 '606
9*637
12 10 4-1
12 30 38-6
12 51 i*6
51-67
51*20
50*71
1 6*19
1 6-29
1 6*40
15 50-06
15 56-42
16 2*04
0*280
0-250
0-219
Sat.
Sun.
Mon.
Tues.
28
29
30
3»
14 10 45-31
H 14 3775
14 18 30-98
14 22 25*01
9*669
9*701
9*735
9*768
13 11 12-6
13 31 11-3
13 50 57-2
14 10 30*0
50*20
49*68
49* 14
48*58
1 6*51
1 6-62
1 6-73
1 6-84
16 6*91
16 II'OI
16 1433
16 16*85
0*187
0*155
0-122
0*088
Wed.
32
14 26 19*85
9 '802
S. 14 29 49-2
48 'OX
1 6-95
16 18-56
0*054 .
1
*Mean Time of the Semidiao
aeter pag&i
eg may be found
by subtrac
ting 0* * 18 from the Sidereal Time/
1
Digitized by
o
II.
OCTOBER, 1882.
16'
AT MEAN NOON.
i
■s
s
"1
J
**
e
THE SUN'S
Equation of
Time,
tobt
added
to
Mam
Tim*.
Apparent
Right Ascension.
Apparent
Declination.
Semi-
diameter.*
Sidereal Time.
Sm.
Mod.
Tues.
1
2
3
h m ■
12 30 6*66
12 33 44'22
12 37 22*11
or*
S. 3 15 ii-o
3 38 28-I
4 I 42*8
16
16
16
**9
m 1
IO 21*28
IO 40*27
10 58*93
h m ■
12 40 27*94
12 44 24*49
12 48 21*04
Wed.
Thur.
Frid.
4
5
6
12 41 0*36
12 44 38-97
12 48 17-97
4 *4 54'8
4 48 3*7
5 11 9-2
16
16
16
2*1
*'4
2-7
II 17*24
11 35*18
11 52*73
12 52 17*59
12 56 I4*I5
13 O IO*70
Sat.
Sun.
Mon.
I
9
12 51 57-38
12 55 37-21
12 59 17-49
5 34 10-7
5 57 8'o
6 20 0-7
16
16
16
3*0
32
3'5
12 9*87
12 20-59
12 42*87
x 3 t TV
13 8 3*80
13 12 035
Tues.
Wed.
Tbur.
10
11
12
13 2 58*23
13 6 39-44
13 10 21-14
6 42 48*4
7 5 3°'7
7 28 7*2
16
16
16
3-8
4-i
4*3
12 58*68
13 14*02
13 28*87
13 15 5691
13 '9 53'46
13 23 50*01
Frid.
Sat
Sun.
13
'5
13 14 3-36
13 17 46-10
13 21 29-38
7 So 37'6
8 13 1-4
8 35 i8'2
16
16
16
46
4'9
5*
13 43*21
13 57*02
14 10*29
13 27 46*56
13 31 43*12
13 35 39*67
Mon.
Tues.
Wed.
16
18
13 25 13*22
13 28 57-63
13 32 42*62
8 57 27-7
9 i9 *9'5
9 41 23-2
16
16
16
5"4
6*0
14 23*00
H 35 IS
14 46*71
13 39 3 6< «
13 43 32*78
13 47 29*33
Thur.
Frid.
Sat
19
20
21
13 36 28*20
13 40 14-40
13 44 122
10 3 8-3
10 24 44*4
10 46 11 -3
16
16
16
6-8
14 57*68
15 8*04
15 17*77
13 51 2588
13 55 2243
13 59 1899
Sun.
Mon.
Tues.
22
23
*4
13 47 48-67
13 51 36-70
13 55 25-58
11 7 28-4
11 28 35-5
11 49 32*1
16
16
16
7"i
7*6
15 26*87
IS 35"3'
15 43*07
14 3 15-54
14 7 12*10
14 II 8*65
Wed.
Thur.
Frid.
26
27
13 59 15-07
H 3 5'*7
14 6 56*21
12 10 17-8
12 30 52-3
12 51 15-2
16
16
16
P
8-i
8'4
15 50*14
15 56*49
16 2*10
14 15 5*20
14 19 1*76
14 22 58*31
Sat.
Sun.
Mon.
Tues.
28
29
30
3*
14 10 47-90
14 14 40-37
14 18 33-62
14 22 27-66
13 11 26-1
13 31 24-7
13 51 105
14 10 43*2
16
16
16
16
8-7
8-9
9-2
9'4
16 6* 9 6
l6 I I '05
16 14*36
16 16*87
14 26 54 '86
14 30 51*42
H 34 47*97
»4 38 44-53
Wed.
32
14 26 22*51
S.I4 30 2-2
16
9'7
16 18*57
14 42 41*08
*T
he Sao
aidiameter for App
arent Noon may be a
Mumed the*
ame ■• that £01
Mtan Noon.
Digitized by
Google
i66
OCTOBER, 1 88a.
in.
MEAN TIME.
1
a
1
o
Q
THE SUN'S
Apparent
Logarithm
of the
Radios
Vector
of the Earth.
Transit
of the
First Point
of
Aries.
THE MOON'S
Longitude.
Latitude.
Semidiameter.
Horisootal Parallax.
«
Noon.
Noon.
Noon.
Noon.
Midnight.
Noon.
Midnight,
I
2
3
/ *
188 II 486
189 10 53 • 1
190 9 59-9
S.o-34
0-46
0*56
0*0002191
* 0000967
9*9999745
h m s
II 17 40-74
II 13 4483
II 9 48-93
1 *
IS 56-6
15 40*8
15 26*0
1 »
15 48-7
15 33-2
15 '9'3
1 »
58 24-8
57 26-9
56 328
1 w
57 55'6
56 59' 1
56 8-i
4
I
191 9-1
192 8 20*5
193 7 $4-2
0*63
0*69
0-73
9*9998523
.9997300
•9996076
II 5 5302
11 i 57*11
IO 58 1*21
15 13-1
15 2-5
»l 54*3
IS 7-5
14 58- 1
14 5i"i
55 45'4
55 6'4
54 3 6 '4
55 *4'8
54 5°'2
54 *4'8
J
9
194 6 50*2
195 6 8*4
196 5 28-8
0-73
0*71
0*67
9.9994849
•9993620
'9992388
10 54 5*3°
10 50 9*39
10 46 13*49
14 48-5
14 45-1
14 43-8
14 46*6
14 44'2
14 43*8
54 IS '4
54 2-9
53 58*0
54 82
53 59'6
53 581
10
ii
IS
197 4 51-4
198 4 16-1
199 3 42-9
o*6i
0-53
0*43
9-9991153
•9989915
•9988673
10 42 17*58
10 38 21-67
10 34 25-77
14 44" 3
14 46-3
H 49'7
14 45' 1
14 478
14 Si'9
53 59'7
54 7*2
54 '9"6
54 a'8
54 "'8
54 *7*5
13
»4
»5
200 3 11 # 8
201 2 42*7
202 2 I5 a 5
0*32
0'20
S.o"07
9-9987429
'9986182
•9984934
10 30 29-86
10 26 33*95
10 22 30*05
14 S4"3
15 OM
15 7-1
14 S7*i
15 3*5
IS 11*0
54 36*5
54 57*8
55 «3*3
54 46'6
55 100
55 377
16
:;
203 I 50*2
204 I 26*7
205 I 5*0
N.o-04
0-15
0*25
9-9983685
'9982436
•9981 189
10 18 42*14
10 14 46*23
10 10 50*33
15 15-3
15 24-7
'5 353
IS 19*8
IS 298
15 410
55 53*3
56 27-8
57 6-7
56 IO'O
56 46-7
57 *7' 6
»9
20
21
206 45*i
207 26*8
208 O IO'I
°'33
0-39
0*42
9*9979944
•9978704
•9977471
10 6 54*42
10 2 5851
9 59 2- 60
'5 46*9
15 59-1
16 11*2
15 S3'o
16 5*2
16 16*9
57 49'*
58 33*9
59 18-2
58 "'4
58 56'3
59 39' 1
22
2 3
24
208 59 55 1
209 59 41*8
210 59 30*1
0*41
0-37
0*29
9-9976245
•9975030
•9973827
9 55 6'7o
9 5i i°'79
9 47 i4'88
l6 22*2
16 30*9
l6 36*2
16 26*9
16 34-1
16 37-3
59 58'5
60 30*5
60 49 9
60 15-8
60 42*0
60 53-7
25
26
27
211 59 20*3
212 59 12*3
213 59 6-3
0*18
N.0'05
S.o*o8
9-9972637
•9971461
•9970300
9 43 18*98
9 39 23-07
9 35 *7'i 6
16 37' I
16 33-3
16 24*9
16 29*6
16 19-3
60 S3 '*
60 39*i
60 8-5
60 48 '4
60 2|"7
59 4»'o
28
29
30
31
214 59 2-3
215 59 0-5
216 59 o*7
217 59 3-0
0*22
0-34
0-45
0-54
9-9969155
•9968023
a 9966905
'9965801
9 3i 3*'*5
9 *7 35*34
9 *3 39*44
9 19 43*53
16 iro
15 s»*7
'5 43'5
15 28-6
16 6-o
15 5i-i
'5 359
15 *i*7
59 *4'7
58 3 l'l
57 3 6 ' 6
56 423
58 59' 2
58 4'5
57 9'°
56 17*0
32-
218 59 7-5
S.o*6o
9-9964710
9 *5 47*62
15 15-2
IS 94
55 53'3
55 3*' 6
Digitized by
IV.
OCTOBER, 1882.
167
MEAN TIME.
THE MOON'S
Longitude.
Noon.
Midnight
Latitude,
Noon,
Midnight
Age.
Noon.
Meridian Passage.
Upper.
Lower.
66 37 43
80 6 32*9
93 9 41*5
105 50 40-3
118 13 41-4
130 23 3-9
142 22 53
154 16 48
166 7 54 «
10 177 58 44-3
11 189 51 24-8
12 201 47 43 -6
13
*5
16
18
19
20
21
22
*3
H
*5
26
*7
28
29
30
3i
32
213 49 21
225 58 1
238 15 42-9
250 44 41-3
263 27 335
276 27 7*2
289 46 3-7
303 26 30*0
317 29 23-8
"* S l S3 ' 6
346 36 490
33i
3 53-
6 49-
1 32 313
16 33 19-3
31 30 27-9
46 15 27- 7
60 41 18*2
74 43 17'*
88 19 19-2
ipi 29 39*o
114 16 26*7
73 *5 3 1 ' 6
86 41 8'i
99 32 4i'8
112 4 9*2
124 19 49*2
136 23 559
I48 20 22*8
l6o 12 32*0
172 3 12*7
183 54 43 '7
195 49 °'5
207 47 46-1
219 52 41-5
232 5 3 6 '7
244 28 38-0
257 4 12*8
269 55 4*7
283 4 0*9
296 33 29*9
310 25 8*7
3H 39 5' 1
339 13 20*8
354 3 30*7
9 * 49*3
4 * 54' *
38 54 580
53 31 7-7
67 45 28-4
81 34 35-2
94 57 3^' 1
107 55 47'9
120 32 3*8
S. 1 21 57-9
2 29 37*8
3 27 1
\n
4 13 ri
4 45 48-1
5 4 595
5 10 30*3
5 2 3 2 '7
4 4i 37*3
4 8 35*5
3 24 40-3
2 31 29*4
1 31 4*5
S. o 25 49-5
N.o 41 32-5
1 48 3*0
2 50 32-4
3 45 427
4 30 i3'3
5 o 47'9
S '4 *97
S 9 4'o
4 43 30*0
3 58 3i'3
2 56 54 '8
1 43 20*7
N.o 23 42-6
S. o 55 51-2
2 9 54-4
3 *4 «6*7
4 6 137
S. 4 44 »5*4
S.i 56 53-3
2 59 51-4
3 5i 45*3
4 31 6*2
4 57 6 '4
5 9 *7'2
5 8 ii-i
396
33-2
4 26
3 47 53'9
2 59 7-3
2 2 2'7
S. o 58 53-4
N.o 7 46-5
1 15 59
2 20 O'l
3 19 '49
4 9 3°"5
4 47 26-8
5 9 55-1
5 14 ID'2
4 58 48-2
4 23 l8 '7
3 *9 3*7
2 21
N.i 3
S. o 16 2
16*4
5 j:|
i 33 51-8
2 43 30-4
3 4i 55-5
4 27 2*2
S.4 57 5o-7
d
19*0
20'0
21*0
22*0
23'0
24'0
25*0
26*0
27*0
28-0
29*0
0'2
1*2
2*2
3-2
4-2
5'*
6'2
v,
2
2
9-2
10*2
11*2
12*2
13*2
14*2
I5'2
l6'2
17*2
l8'2
19*2
20'2
16 16-
17 io'6
18 2*4
18 51-
19 37-
20 21*7
21 4*2
21 45-9
22 27'4
23 9' 5
23 52-7
* *
37*6
1 24-5
2 135
3 4'5
3 57*o
4 50-2
5 43
6 36*9
7 *9"9
8 22-8
9 16*2
10 io*6
3 48*2
4 43'
5 36*
6 27*2
7 H'8
7 599
8 43-1
9 2 5'i
10 6*7
10 48*4
11 30*9
12 14-9
13 o-8
13 48-7
14 38-8
15 30*6
16 23*5
17 17*0
io*4
- r 4
19 56-3
20 49-4
21 43-2
22
38-3
6-4
3-8
2-3
14 o*8
»4 57'?
15 52-6
16 44'i
17 32-4
23 35-0
33*0
1 31*6
2 29*6
3 2 5'6
4 18-7
5 86
Digitized
O
i68
OCTOBER, 1882.
v.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
9
10
11
12
«3
14
\i
18
19
20
21
22
*3
I
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
*3
24
Right
Ascension.
Var.
in io".
Declination.
Var.
in io".
SlJHDAY
b
420 5-
422 31'
42457-
27 2*
2948
32I3-
34 39
37 4
3929
4153
4418
4643
49 7
51 ji*
5619
5842
1 6
329*
l SZ
815-
1037*
13 o*
15 22'
1744
20 6
22 28
2449
27 10
293I
3152
34 13
36 33
38 53
41 13
43 3 2
45 52
48 11
5030
5*49
55 7
57 25
5 59 43
2 1'
4 18
635
852
11 9
1325
s
24-332
24-310
24-288
24*266
24-243
24-219
*4'i94
24*169
24-143
24-117
24-091
24-063
24-035
24-007
*3*977
*3*947
23-917
23-887
*3'855
23-823
23-792
23-758
23-725
23-691
I
N.2o°
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
N.20
456-2
741-0
10 i8*i
1247-5
15 91
1723-1
1929-3
21 27-9
23 i8-8
25 2
26 37*7
28 5-8
2926*2
3039-1
3M4*5
3242-4
3332-8
3415*7
345i'i
3519-2
35 39*9
35 53*3
35 59*3
3558-0
MOHDAY 2.
23-657
23-622
*3*55«
*3"5«5
23-478
23-442
23-404
23-366
23-328
23-289
23-251
23*2x1
23-171
23-131
23*090
23*050
23*008
22*967
22*926
22-884
22-842
22-799
22*757
22- 7 i 3 N.i9
N.20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
35 49'5
35 33*8
3510-8
34 40*7
34 3*5
3319-2
32 27-8
3129*4
3024*0
29 11-7
2752-5
2626-4
H 53*4
2313
21 27
*9 34
17 34
1527
1314-6
1055-0
828
5 56
3*7
o 32
57 40
w
28-12
26*83
*5-S4
24*25
22*97
21*68
20*40
19*12
17-85
16*58
1531
14-04
12-78
n-53
10-28
903
7-78
6-53
529
4-07
2*84
Z*62
0-39
0*82
3'*3
4*43
5-6i
6-79
7*97
9^5
10-32
11-48
12-63
13-78
H'93
x6*o6
17-18
18-31
19-42
20-53
21-63
22-73
.23-81
24-89
25-96
27-03
28-09
U9I3
Right
Ascension.
Var.
in io"
Declination.
Var.
inio-.
Tuesday
has s
61325*85
6 1542*00
61757*90
620 1-5-53
622 28*90
62444*01
62658*86
62913-44
6 31 27*76
6 3341*81
^35 55*59
638 9*u
64022*36
64235*34
64448*06
647 0-50
649 12*68
65124*59
65336*23
65547*60
65758*70
o 9*52
2 20*08
430*37
2*713 N,
2-67
2-628
22*583
2*540
» '497
**453
2*408
2-364
2-319
2-275
2*231
2-186
2*142
2*097
2*052
2*008
1-963
1*918
1*873
1*827
1*782
1*738
21*693
N.
Wednesday
640*39
8 50*14
1059*62
13 8-84
1517*79
1726-47
1934-88
2143-03
23 50*91
2 5 58*53
28 5*89
30 12-98
32 19*81
3426*38
30 32*69
3838-74
4044*53
42 50*07 120*902
44 55-35 '20-859
47 o*38|2o-8i7
49 5*16^0-775
51 9*6820733
53 13*95 '"'692
55 x 7'9^ 20-651
57 21-76 20-609
2X-648N.
2 1 * 603
21-558
215x4
21*469
21-424
21*380
21-336
21*292
21*248
21*204
2i*i6o
2X-XX7
2X-073
21-030
20*987
20*944
N,
195740
195442*
19 51 38
194827
1945 11
19 41 48
193820
19 3445*
1931 4
1927 18
192325
191927*
191523
191113*
19 658*
1858 10*
*S 53 3«*
1849 °"
184417*
183929*
I8 34 35*
18 29 36
18 24 31
o 4 -
18 1921'
18 14 7 -
18 847*
18 322*
175752-
175217-
174637
174052
1735 3*
1729 8
1723 9
17 17 6
17 10 57
17 4 44*
165827-
1652 5
164538
1639 8
16 32 32
162553
16 19 9
16 12 21
16 529
15 58 33
1551 32-
3i*9-*3
4:30-18
2! 31-22
8 32-24
33-26
34 # *7
35-28
36-28
37**7
38-24
39-22
40-19
4X-x 4
42*10
4304
43*97
44*9'
45-83
4*5*73
47-63
4853
49'4*
50-30
6i5
X17
9' 52-04
52-89
53*73
54-58
55 '4*
56-23
57-04
57-86
58-66
59*45
60-23
6i-oi
61-78
62-53
63-28
64-04
64-78
65-50
66-23
3 6 «*93
6 67-64
6 68-34
5 69-03
2 69-72
9 70*39
Digitized by
o
VI.
OCT(
)Bh
:r
, 1882.
169
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
S
a
Right
Ascension.
Var.
lnio".
Declination.
Var.
initf".
Right
Ascension.
Var.
in io 1 *.
Declination.
Var.
in io".
Thuks
DAT 5.
Satubday 7.
h m • ■
/ ♦ *
h m 1 1
/ * *
O
75721-76
20*609
N.1551329
70*39
O
932 9*58
19-033
N. 9 937*8
94*41
I
75925-20
8 128/58
20*568
154428*5
71*06
I
9 34 3-7 1
19*010
9 010*3
94*75
2
20*528
15 3720*2
71*72
2
9 35 57-7?
18*988
8 5040*8
95* 08
3
8 331-63
10*488
1530 7*9
72*38
3
93751-56
18*966
841 9*4
95*39
4
8 5 34*43
20*448
1522 51*7
73*<>3
4
93945-29
941 38-88
'8*943
83136-1
95*72
|
8 737-00
20*408
151531*6
73-66
5
18*922
822 0-8
96*03
6
8 9 39'33
20-368
15 8 7-8
74* »9
6
943 3*'35
18*902
8 12 23-7
96*33
i
8 11 41 -42
10*329
15 040-1
74*9*
1
94525-70
94718-93
18*882
8 244-8
96*63
8 1343*28
20*190
1453 8-8
7553
18*862
753 4-i
96*92
9
81544-90
20*251
H45 33-8
76*13
9
94912-04
18*842
74321*7
97*20
IO
8 1746-29
81947-46
821 48-40
20*213
143755-2
7^-73
10
951 5-03
18*823
7 33 37-7
97*48
ii
20*176
1430 13*0
77*33
11
95257-91
95450*68
18*804
72351-9
97*77
12
20*138
1422 27-2
77-92
12
18*786
7H 4-5
98*03
»3
82349-11
20*101
141437-9
14 6 452
78-50
»3
9 5$43'34
18-768
7 4156
98*28
*4
82549-61
20*064
79*07
»4
95835-90
10 028-35
18*751
654251
98-54
15
82749-88
20*017
135849-1
79*63
'5
18-734
64433*1
98-79
16
82949-95
8 31 49- 76
19*990
135049-6
134246*8
80*19
16
10 220*71
18*718
63439*6
99*03
:?.
19 '954
-80-74
\l
10 412*97
10 6 5-13
18*702
62441*7
6 1448*4
99*27
83349-38
19-919
133440-7
81-28
18*687
99*50
19
83548-79
19-884
132631*4
81*82
19
10 757-21
18*672
6 450-7
99*72
20
53747-99
83946-98
19-849
13 18 189
8**35
20
10 949*20
18*657
55451*7
99*94
21
19*814
13 10 3-2
81 -88
21
10 11 41*10
18-643
54451-4
ioo* 16
22
84145-76
19*780
13 144-4
83*39
22
10 13 32*92
10 15 24-66
18*630
53449*8
100*36
*3
843 44*34
19' 747
N.12 5322-5
83*90
23
18*617
N. 5H47-I
100-56
Friday
r 6.
S
UMD1
LY 8.
84542-72
19-713
N.12 44 57'6
12 3629*7
84*40
10 17 16-32
18*604
N. 5i443'i
5 438-o
100*76
1
5 474 2'22
19-680
84*89
I
10 19 7-91
18*592
100*94
2
8493888
19*648
12 2758*9
85*38
2
1020 59*42
18-580
45431-8
101*13
3
851 36-67
19-616
12 1925*2
85*86
3
10 22 50*87
18*569
44424-5
101*31
4
85334-27
19*584
12 1048-6
86*33
4
10 2442-25
18*558
43416*1
101*48
5
8 55 31 -68
'9*553
12 2 9*2
86*80
5
102633*57
18*548
424 6*8
101*63
6
85728-90
19*511
11 53 27-0
87-16
6
10 28 24*83
18*538
41356*5
101*79
1
85925-95
9 122*78
19*490
114442-1
87*71
7
10 30 16*03
18*528
4 345-3
101*95
19*461
"35 54*5
88*16
8
IO32 7*17
103358*27
18-520
3 53 33-1
102*10
9
9 3 X 9 # 46
19*431
11 27 4*2
88* 60
9
18-512
34320-1
102*23
10
9 SI5-95
19*401
11 18 ii'3
89*03
10
I0 35 49-3 1
18*503
3 33 6-3
102-37
11
9 712-27
19*372
11 915-8
89*46
11
103740*31
18*496
32251*7
102*49
12
9 9 8-41
'9*343
11 017-8
89*88
12
10 39 31**0
18-488
3 12364
102*61
13
911 4-38
19*315
1051 17-3
90*29
13
1041 22*17
18*482
3 220-4
102*73
H
913 0-19
19*188
1042 14*3
90*69
14
1043 13-04
18*476
252 3-6
102*84
:i
91455-83
19*160
1033 9'°
91*09
15
1045 3*88
18*471
24140-3
102 • 94
9 1651*31
9 1846*63
I9**33
1024 1*2
91*49
16
1046 54*69
18*465
2 31 28-3
221 9*8
103*04
:i
19*207
10 1451*1
91*88
17
104845*46
18*460
103*13
92041-79
19*180
10 5 38-6
91*27
18
1050 36-21
18*456
2 1050-7
103-22
*9
922 36-79
*9'i54
95623*9
92*63
19
1052 26*93
18*452
2 031*2
103*29
20
92431-64
19*130
947 7-o
93*00
20
105417*63
1056 8*31
18*448
I 50 11*2
103*37
21
92626*35
19*105
93747*9
93*37
21
18*445
13950-7
103-44
22
9 28 20-90
19*080
9 28 26*6
93*^3
22
105758-97
105949*62
18*443
1 29 29-9
no 8-7
N. 1 847*2
103*50
*3
93015-31
19*057
.T 9 ' 9 ^l
94*07
23
18*441
103*56
24
932 9-58
19*033
N. 9 937-8
94*41
24
11 140*26
18*439
103*61
Digitized by
" .ooglc
170
OCTOBER, 1882.
VII.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
w
Right
Ascension.
Var.
inio".
Declination.
Var.
inio-*.
i
Bight
Ascension,
Var.
inio".
Declination.
Var.
in io".
MOVDAY Q.
Wednesday 11.
h m • •
Off *
h m • 1
t it
II 140*26
18-439
N. I 847-2
103-61
123049*54
18*871
S. 7 *3i'J
98-67
I
II 3 3<> ,8 9
18-438
058 25*4
103-65
I
12 3242-82
18*890
7 12 22*6
98*41
2
11 5*i'5i
18-437
048 3*4
103-68
2
12 34 36*22
12 3629*74
18*910
722 12*2
98*13
3
11 712*13
18-437
03741-2
103-72
3
18*929
7 32 0-2
97-87
4
11 9 2-75
18*437
02718*8
103-75
4
12 38 23-37
18-949
74146-6
97'58
5
11 1053*37
18-437
1656*2
103-77
5
I24O 17*13
18-970
751 31*2
97-29
6
11 1244*00
18-438
N. 633*6
103-78
6
1242 11-01
18*991
8 1 14*1
9700
7
u 14 34^3
11 1625*28
18-440
S. 3 49' 1
103-79
i
1244 5'02
19-012
8 1055*2
96-70
8
18-44*
14 11-9
024 34-0
103-79
124559*16
19-033
82034-5
96-39
9
111815*94
11 20 6*61
18-444
103-78
9
124753-42
19-055
8 30 11*9
96-07
10
i8*447
34 57*3
103-77
10
124947*82
19*078
83947*3
84920*8
85852-3
95'74
11
112157*31
18-451
045 19-8
103-75
11
125142*35
19*100
95*4*
12
11 2348*02
18-454
05542*3
103*73
12
125337*02
19*123
95*o8
13
11 25 38*76
18-458
1 6 4*6
1 1626*7
103-70
13
125531*83
12 5726*78
19-147
9 821*8
94*74
14
11 27 29*52
18-463
103-67
"4
19*170
91749*2
94-38
15
11 29 20*32
18-468
1 2648*6
103-63
15
12 5921*87
19-193
92714*4
9403
16
11 31 11*14
18*473
1 37 IO*2
103-58
16
13 n7'io
19*218
93637*5
93'67
*7
II 33 2*00
18-479
i473 I *5
103-52
:z
13 312*48
19*243
94558-4
93-29
18
II34 52*89
18-486
*57 5*'4
2 813*0
103-46
13 5 8-01
19*268
95517*0
92-91
*9
113643*83
18-493
103-39
19
13 7 3*69
13 859*52
19-293
10 4333
92-53
20
II38 34-8I
18-500
2 1833*1
153-32
20
19*318
101347*3
92-13
21
II 4025*83
18-508
22852*8
103-24
21
13 1055*50
I9-343
1022 58-9
91-73
22
II 42 16*90
18-516
2 39 12*0
103-15
22
13 12 51*64
19-370
1032 8*i
9*'33
23
1 1 44 8*02
18-524
S. 24930*6103-06
23
13 H 47-94
19-396
S. 1041 14*9
90*92
TUESDA
Y IO.
Thubsdj
LY 12.
II45S9-I9
18-533
S. 25948-7
102 '97
131644*39
«9*4»3
S.I050 I9*lj90*49
1
114750*42
18-543
3 10 6*2
102-86
I
13 1841*01
19-450
10 59 20*8: 90*07
2
114941*70
i8*553
3 2023-0
102-74
2
132037-79
19*477
11 8 19*9; 89-63
3
115133*05
18-563
33039-1
102*62
3
13223473
132431-84
19-504
11 17 16*3
89-18
4
115324*46
»8*573
3 40 54^
102*50
4
19-532
11 26 IO'I
88-73
5
115515*93
18-584
351 9*1
102-37
5
13 2629-11
19-560
1135 i*i
88-28
6
11 57 7*47
115859*08
18-596
4 123*0
4 11 36*0
102*24
6
13 28 26-56
19-589
114349*4
87-82
1
18 • 608
102*09
7
13 3024-18
19*618
115234*9
87-34
12 050*76
18-620
42148*1
101*94
8
133221-97
19*646
12 1 17-5
86-86
9
12 242*52
18-633
43I59-3
101*79
9
I3 34I9-93
133618-07
19*675
12 957*2
12 18 34*0
86-38
10
12 4 34'3 6
18-646
442 9*6
452 18*9
101-63
10
19-704
85-88
11
12 626*27
18-659
101*46
11
1338 16-38
134014-87
19*733
1227 7-8
12 35 38*6
85-38
12
12 81827
18-673
5 227*1
101*28
12
19-763
84-87
*3
12 10 10*35
i8'688
51234-3
101*11
13
134213-54
19-793
1244 6*3
84-36
H
12 12 2*52
18-703
5 22 40*4
100*92
H
134412-39
19-824
12 52 30-9
83-84
IS
121354*78
18-718
5 3M5'3
100*72
l S
134611*43
1348 10*65
19*855
13 052-4
8331
16
12 i5 47 #I 3
18-733
54249*0
100*52
16
19-886
13 9 io*6
82-77
!:!
121739*58
18-750
552 5I-5
6 252-8
100*32
:i
13 50 10*06
19-917
13 17 25*6
82*23
12 19 32*13
18-766
100*10
1352 9*65
X9-947
132537-3
8r*68
19
12 21 24*77
18-782
6 12 52-7
99*88
19
1354 9-42
19-978
133345-7
81-11
20
12 23 17*51
18-799
622 51-3
99-65
20
1356 9*39
20*010
134150*6
8o-54
21
12 25 10*36
18-817
63248-5
99'4x
21
1358 9*54
20*041
134952-2
79*97
22
1227 3*31
18-834
64244*2
99-17
22
14 9*88
20-073
I3 57 50-3 79-39
23
12 28 56*37
18-853
65238*5
98*92
*3
14 2 10*42
20*106
H 5 44-9; 78-8o
24
123049*54
18-871
S. 7 231-3
98-67
24
14 411*15
20-138
S.14 13 35-9:78*20
Digitized by
o
VIII.
OCTOBER, 1882.
171
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Right
Ascension.
in xo».
Declination.
inio».
i
Right
Ascension.
Var.
in xo".
Declination.
Var.
in 10"*.
Fbibat 13.
SuffDAY 15.
h m 8 1
t H
h m • •
1 n *
O
14 4" # I5
20-138
s. 14 1335-9
78*20
O
154441-74
21*736
S.19 633*5
41*17
I
14 612*07
20*170
1421 23*3
77-60
I
154652*25
21*767
191037*7
191436*3
40*23
2
14 8 13*19
20*203
1429 7-1
76*99
%
1549 *'94
21*798
39*30
3
14 10 14*50
20*235
143647*2
76*38
3
155113-82
21*828
19 18 29*3
1922 16*5
38-35
4
14 12 16*01
20*268
144423*6
75*75
4
155324-88
21-858
37*39
s
141417-71
20*300
145156*2
75*ii
5
155536-12
21-889
1925 58*0
36*43
6
14 16 19*61
20*333
145924*9
15 649*8
74*47
6
*5 57 47 - 55
21*919
192933*7
35*47
2
14 18 21*71
20*367
73*83
7
J 5 59 59-^5
21*948
1933 3' 6
19 3627*7
193945*8
34*50
142024*01
20*400
15 14 10*8
73*17
8
16 2 10*93
16 422-89
16 635*03
21*978
33*5*
9
1422 26*51
ao'433
1521 27*8
7251
9
22 '008
3**53
10
142429*21
142632*11
20*467
15 2840*9
71-84
10
22*038
1942 58*1
31*55
11
20*500
I5 35 49-9
154254*8
71*16
11
16 847*34
22-066
1946 4*4
30-56
12
1428 35*21
20*533
70*48
12
16 1059*82
22*094
1949 48
*9*57
'3
143038*51
20*567
154955*6
155652-3
•V 79
13
16 13 12*47
22*123
195159*2
28*56
H
14 3242*02
20 '602
69-09
14
16 15 25*29
22*151
I9 5447-5
»7*55
*5
H 34 45 '73
20*635
16 3447
68-38
*5
16 1738-28
22*178
195729*8
2653
16
143649*64
20*669
16 1032*9
67-68
16
161951*43
22 * 205
20 5*9
2551
>7
H38S3-76
144058*08
20*703
16 17 16*8
66*95
:i
1622 4*74
22*232
20 235*9
24*49
18
20-737
1623 56'3
66*22
1624 l8'2I
22-258
20 459*8
23*47
*9
14 43 2 * 60
20*771
16 3031*5
65*49
19
1626 31*84
22/285
20 717*5
22*43
20
'445 7'33
1447 12*26
20 * 805
1637 2*2
64*74
20
162845-63
22*311
20 929*0
2i»39
21
20*839
1643 2 8'4
64-00
21
163059*57
22*337
20 11 34*2
20*34
22
144917*40
20*873
164950*2
S. 1656 7-3
63-24
22
1633 1367
22*362
201333*1
19*30
*3
145122-74
20*907
62*48
*3
16 35 27*92
22-387
S.20 15 25*8
18*25
Satubd,
IT 14.
MOffDA
I 16.
145328*28
20*941
8,17 2l9*o|6i*7i
17 827-8 60*93
16 3742*31122*411
S.20 17 12*1
17*19
I
14 55 34'oj
145739*98
145946*14
20*975
I
163956-85
22*436
20 l8 52*1
16*13
2
21*009
171431*1
60*15
2
1642 11*54
22*460
20 20 25*7
1507
3
21*043
1720 29*6
59*35
3
164426*37
22*483
2021 52*9
14*00
4
15 152*50
21*077
172623*3
5855
4
164641*33
22*505
2023 13*7
20 24 20'0
12*93
5
15 3 59'° 6
15 6 5*83
21*111
I732 12*2
57*75
5
164856-43
22*528
11*85
6
21*145
I737 56*3
56*94
6
16 51 11-67
22551
202535*9
10*78
2
15 812-80
21*178
I743 35-5
56*12
1
165327*04
22*573
2026 37*3
9-68
151019*97
21*212
1749 9-7
55**9
165542-54
22*594
2027 32*1
8-59
9
15 12 27*35
21*246
1754 39'°
18 3*2
54'46
9
165758-17
22*615
2028 20*4
7*5*
10
151434-92
21*279
53 62
10
17 013-92
22*636
2029 2*2
6-41
11
151642-7021*313
15 1850-6811*347
18 522*4
52*78
11
17 229*80
22*656
202937-3
5*3*
12
18 1036*5
51*92
12
17 445*79
22*675
2030 5*9
4*22
13
15 20 58*86|n*379
18 1545-4
51-06
13
17 7 1*90
22-695
203027*9
3*n
14
1523 7*23
21-412
18 2049*2
50*20
H
17 918*13
22*714
203043*2
2*00
ij
15 25 15*80
* 1*445
182547*8
49*32
15
171134*47
22-733
203051*9
0*90
16
152724-57
21*478
18 3041*0
48*43
16
i7i3 5<>-9 2
17 16 7*48
22*751
203054*0
0*22
17
i5*9 33'S4
21*511
183529*0
47-56
17
22*768
203049*3
20 3038*0
*-33
18
153142-7021-543
1840 n*7
46-67
18
17 1824*14
22-786
*'45
19
15 33 52-06
1536 i*6i
21*576
184449*0
45*77
19
172040*91
22*803
2030 19*9
3-5»
20
21*608
184920*9
44-86
20
172257*78
22-819
202955*1
4*69
21
1538 11-3621*641
185347*3
1858 8*2
43*94
21
172514*74
1727 31*80
22*835
202923*6
202845*4
5*8i
22
154021*3021*671
43*03
22
22-851
6*93
*3
154231*42
21-703
19 223*7
42-11
23
17 2948*9522-866
2028 0*4
S.20 27 8*6
8*07
H
154441*74
21*736
s.19 633*541*17
H
1732 6* 19*22*881
9*20
Digitized by "
O
172
OCTOBER, 1882.
IX.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
I
9
10
ti
12
»3
•4
'5
16
3
*9
20
21
22
23
9
10
11
12
13
:i
x 7
18
19
20
21
22
23
24
Right
Ascension.
Var.
inio».
Declination.
Var.
inio».
Tuesday 17.
h m s 1 o
732 6*1922*881
7 34 23-52 11-895
7 3640*9311*908
7 38 58*42 11-911
741 15-99 11-935
74333-6411-947
74551-3611-959
748 9-1511-971
7 5027*01 21-981
75244-9311-993
7 55 *'9 1 »3 , «>3
75720*9623-013
75939*0713-013
8 1 57*23 13-031
8 415-45*3-040
8 033-7113-048
8 852-0213-056
8 11 10-3813-063
8 1328*7813*071
8 i5 47'*3*3'077
8 18 5-71 13-083
8 2024*2323*089
8 2242*7823-094
825 1*3613*099
Wednesday 18.
827 19-9713-1048.1932 17-4
S.2027 8
2026 10
2025 4
2023 52
20 22 33
2021 7
20 19 35
201755-7
20 16 o*4
20 14 16
20 12 16
20 10 9
20 755
5 35
3 7*9
033*7
195752-6
19 55 4'7
1952 Q*9
• 1949 8 '3
194559-8
194244-5
19 39 22*3
S.19 35 53'3
20
20
20
82938-61
83157*27
83415-95
8363466
83853-38
84I 12*12
84330-87
84549-63
848 8*40
85027-18
85245-96
8 55 4'75
85723*54
85942-33
9 2 1-12
1 *$&
9 8 57*45
9 11 16*22
91334*9723-114
91553-7123-121
9 18 12*4413-120
9 20 31*1513*118
9 22 49*8513*115
23*108
13*111
13*Il6
13-II9
13*111
13-124
23*126
23-128
13-I19
23*130
23-131
23-132
23*131
23-132
23131
13-130
13*129
23*128
13* 117
1928 34*8
192445
192049*0
19 1646-0
19 12 36*1
19 819-5
10 3 56- 1
185926-0
185449*2
1850 5*6
1845 15
18 40 18
18 35 14
18 30 4
182447
18 1923*9
181353'
18 816-^
18 233*6
175643*8
175047*4
1744 445
173835*2
S. 17 32 19-4
9*10
10-33
11*46
xi '60
13*73
14*87
16 '00
17*14
18-28
19*43
20*57
21*71
11-85
13-99
15-13
16-28
17*41
18-56
19-70
30-84
31-98
33*13
34-17
35*41
3^*54
37-68
38-82
39*94
41*08
42-21
43*33
44*4*3
4S*5»
46-70
47-81
4« # 94
50-05
51*16
52*27
53*38
54*48
55*58
56*68
57*76
58-85
59*94
61*02
62*09
63-17
Right
Ascension.
Y».
inio-.
Declination.
Var.
into".
Thursday
h m • s
192249-8523-115
1925
8-53
19 2727-19
192945-84
1932 4-46
193423-06
193641-64
19 39 0*20
1941 18-73
194337-23
'945 55-7 1
1948 14*16
195032-59
1952 50-98
19 55 9-3
5727*6
'9
'9 59 45*99
20 2 4*27
20 422*51
20 640-73
20 20 8 58*91
21 20 11 17*0623*023
22 20 13 35*1823-018
23 20 15 53*2723*013
Feiday
23-112
23-109
23-106
13*101
23*098
23-095
13-091
13*086
23*082
23*078
23-073
23-068
23-063
23-058
23*053
23-049
23-043
23-038
»3-033
23*028
S.
20 18 11*33
202029*35
20 2247*35
2025 5*31
20 2723*24
202941*13
2031 59*00
20 34 16*84
203634-64
2038 52-42
2041 10-16
2043 27-88
204545-57
2048 3*23
20 50 20*87
2052 38*48
2054 56*06
2057 13-62
205931-15
21 148*66
23-007 S.
23-002
22*997
22*991
22*985
22*980
22*976
22*970
22-965
22*960
22*955
22*951
22*946
22*942
22*938
22-933
22*928
22-924
22-920
22*917
21 4 6-1522*913
21 623*6222-910
21 841*0722-907
23 21 10 58*5022-904
24 21 13 15-9222*902^.
19.
o t 1
73219*4
72557-2
7 19 28*6
71253
7612
65924
652 30
64530
63824
6 31 11
62352*
627*
6
2
6
8
6 1627*9
6 8569
6 1 19*8
5 53 3 6 '7
5 45 47-6
5 37 52
52951
52144
5 13 31
5 513*2
45648*8
448 18-7
43942*9
20.
431 1
422 14
41321-9
4 423-7
35520-1
3 46 11
33656
3*7 3 6
3 18 11
3 841
2 59 5'9
24925-2
23939-4
2 2948*6
2 19 52-7
2 951-9
15946*2
1 49 35 •«
1 3920*3
I 20 0'2
I IK 35-4
1 8 60
057 32-0
04653 _
o 36 10-5
9
63*I7
64*23
65*29
66*36
67-42
68-46
69*51
70-55
71-58
72*62
73*64
74*66
75*67
76*68
77*68
78*68
79*68
80 *66
81-64
82*61
83-58
84*54
85*49
8643
87*37
88*30
89-13
90-15
91*05
91-96
91-86
93*73
94* 61
95*49
96* 35
97-11
98*05
98-89
99-72
100-54
101-36
102 * 16
10295
103*74
104*52
105-28
106*04
106 * 79
107*53
<J*oo<
Digitized by
X.
OCTOBER, 1 88a.
173
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Right
Ascension.
Var.
inioP.
Declination.
Var.
inio*.
9
IO
II
12
'3
15
16
17
18
19
20
21
22
*3
O
I
2
3
4
i
9
10
11
12
13
14
15
16
:?
19
20
21
22
23
*4
h m I
21 13 I5 a 92
211533-32
21 1750*70
21 20 8*07
21 22 25*43
21 2442*78
21 27 0*II
2I29I7-44
213134*76
21 33 52*08
21 36 9*40
21 3826*71
21 4044*03
2143 1*35
21 45 18*67
2147 35-99
21 49 53 '3*.
21 52 io*66
21 5428*01
215645*38
21 59 2
22 1 20
22 337*56
22 555
Saturday
S
00
•
21-902
22*898
22*896
22*894
22*892
22 * 890
22*888
22-887
22*887
22*887
22*886
22*886
22*887
22-887
22*887
22*888
22*889
22*891
22*893
22*896
22-898
22*900
22*904
22*908
S.
21.
Off
1036.10*
IO25 23*
IO 1431*
IO 335
9 52 35-
94130
9 30 22
9 19 IO
9 753
845 8
83340
8 22 9
81033
7 58 54
74712
73526
72337
71144
65948
64749
6 35 47
62342
611 33
22 8 12'
22 1029'
22 1247*44
2215 4
22 17 22
22 1940*14
22 21 57*77
22 24 15*44
22 26 33*15
22 28 50*90
22 31 8*69
22 33 26*53
223544*42
2238 2*36
224020*35
2242 38*40
224456*51
224714*67
2249 32*8
22 51 51*1
2254 9*54
22 56 27*96
22 5846-45
23 i 5*02
23 323*66
22*911
22*916
22*920
22*925
22*931
22*936
22*942
22*948
22*955
22*962
22*969
22*977
22*986
22*994
23*003
23*013
23*022
23*032
23-043
23-054
23*065
23*076
23*088
23*101
23*113
SUHDAY 22.
S.
S.
55922
547 9'
5 34 5*
52233
5 10 11
4 57 47
44520
43251
4 20 19
4 7 4-5
35510
34232
32953
31711
3 428
25143-
2 38 56
226 8
2 13 18
2 027-
M7 35'
13441'
1 21 46'
1 851'
55 54*
07*53
08*25
08*97
09*68
10*38
11*07
ii*74
12*42
13*08
13*72
14*35
14*98
15*60
16*19
16-78
17*37
»7*94
i8*49
19*04
19*58
20*10
20*61
21*12
21*60
22*07
22*53
22*99
23*42
23-84
24*26
24*66
25*04
25*42
25*78
26*12
26-45
26*77
27*08
27*37
27*6$
27*91
28*16
28*40
2863
28*83
29*02
29*20
29*37
29*52
Right
Ascension.
Var.
into**.
Declination.
Var.
in io",
h n
023 3
23 5
23 8
23 IO
23 12
23 '4
2317
2319
23 21
2324
23 26
23 28
233I
2333
"S
1340
42
45
.47
3 49
5»
MoVDAY 23.
I
9
10
11
12
13
H
II
»9
20 2
21
22 2
23 2
23,
23-
23,
*3
23*66
42-38
1-17
20' 05
39*01
58-06
17-20
36-42
55*74
34-66
54-27
13-98
33*79
53-71
irit
54* '3
14-49
34-96
?|: 55 -
■I 5*5 5
8
23*113
23*126
23*139
23*153
23*168
23*183
23*197
23-213
23*228
23*243
23*260
23*277
23*293
23*311
23*329
23*348
23*366
23*384
23*403
23 422
23*442
2623*462
23*482
23*503
s.
7*09
8*04
Tuesday 24.
O t I
55 54
42 56
29 58
o 1659
359
090
022
035
048
1 1
"4
1 27
1 40
15
2 19
2 32
245
258
311
324
N.
33656'
34950'
4 244-
^3 59
o 1
o 4
o 6
o 8
o 11
o 13
015
018
020
022
025
027
030
o 32
034
037
039
042
044
046
049
051
054
056
19*12
40*32
I -65
23*11
44*70
6*42
28*27
50*26
12*38
34*64
57'°5
19*59
42*27
28*06
51*17
H'43
37*83
1*38
25*07
48*92
12*91
37*05
i*34
25*78
23*523
*3'544
23*566
23*588
23*609
23*631
23*653
23*676
23-698
23*722
23*746
23*768
23*791
23*816
23*840
23*864
23*888
23*912
■»3'937
23*962
23*987
24*011
24*036
24*061
24*086
N. 4i5 36'4
41530-
42827-
44116*
4 54 4
5 650
5 19 35
53217
544 58-
5 57 36
6 10 13*
62247
63519
64748
7 015
7 1240
725 1
73720
74936
8 149
81359
826 5*
838 8
850 8
N. 91357*
*
129*52
129*66
129-78
129*88
129*97
13005
130*11
130*16
130M9
130*21
130*21
130-19
130*17
130*12
130*06
129-98
129*89
129*79
129*66
12952
129*37
129*20
129*01
128*80
128*58
128*35
128*10
127*83
127*55
127-25
i26* 93 j
126-60
126-26,
125-89!
125-51
125*12
124*70
124*27
123-83
123*36
122-88
122*39
121*88
121*37
120*82
120*26
119*69
119-10
118*49
Digitized by
Googk
i7<
*
UUI1
ABU
,11
, 1882.
XI.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Right
Ascension.
Var.
in io".
Declination.
Var.
in io».
i
Right
Ascension.
Var.
inio».
Declination.
Var.
into".
Wednesday 25.
Fbidat 27.
h m a s
/ » n
h m a s
■ * *
056 25*78
14*086
N. 913579
118-49
2 5440*68
15*065
N.17 520*1
71*97
I
05850-37
24*111
92547*0
117*87
I
2 57 11*10
15*074
17 12 34*2
7* "74
2
I I 15*11
14*136
9 37 3**4
117*14
2
25941*57
15*083
171941*0
172640*3
70*51
3
I 340*00
1 6 5*04
14*161
94913*9
116*58
3
3 2 I2 a 09
3 442*66
15*091
6917
4
14*186
10 051*4
115*91
4
15*099
1733 3*-*
68*01
5
1 830*23
14*111
10 12 24*9
115*13
5
3 7 13* 8
15*106
174016*5
66-76
6
11055*57
14*136
1023 54*2
"4*53
6
3 9 43*93
3 12 14*62
15*111
174653*3
65*50
1
1 13 21*06
14*161
1035 193
113*81
7
15*118
175322*5
64*13
11546*70
14*186
104640*1
113*09
8
3H4534
15113
175944*0
62 * 95
9
1 18 12*49
14*311
105756*4
111*35
9
3 17 16*09
15*117
18 5 57'9
61*67
10
12038*43
i4*33 6
11 9 8-3
iii*59
10
3 1946*86
15119
18 12 4*0
60*38
11
123 4*52
14*360
11 20 15*5
110-81
11
3 22 17*64
15131
18 18 2*5
59*09
12
12530*75
14*384
11 31 18*1
110*03
12
32448-44
15-133
182353*1
57-78
*3
12757*13
1 3023*66
14*409
11 42 159
109*13
13
32719*24
15*134
182935*9
56*48
14
H B 433
11 53 |-8
108-41
14
3295005
*5»35
183510*9
55-18
*5
13250*33
H'45«
12 356*8
107-58
'5
3 32 20*86
»5*i34
184038-0
53-87
16
13517*15
14*481
121439*7
106*73
16
33451*66
15*131
184557*3
1851 8*6
5*'55
17
13744*11
14*505
122517*5
105*86
17
33722*45
15*130
51-13
18
I-40 11*21
14*518
12 35 50*0
104*98
18
33953*22
15117
18 56 12*0
49*90
'9
14238*45
14*551
124617*3
104*10
19
34223*97
15113
19 i 7*4
4«-57
20
'45 5^3
«4 # 575
12 56 39*2
103-19
20
3 44 54"7o
15*118
19 5 54'9
47 -*4
21
'4733-35
14*598
13 655*6
101*17
21
347*5-39
15*111
191034-3
45-90
22
i 50 I'OI
14*611
13 17 6*5
101*35
22
34956*04
15*105
1915 5'7
44*57
23
152 28*80
14- 643
N.13 27 n*8
100*41
23
3 5226-65
15*098
N.19 1929*1
43 **3
Thubsd
AT 26.
Satubdj
LT 28.
15456*72
14*665
N.13371K4
99*45
35457*22
25*090
N.i 9 23 44*5
41*89
I
15724*78
14*687
1347 5*2
98*48
I
35727-73
15-081
192751*8
40-55
2
I59 52*96
14*708
135653*1
97'49
2
35958*19
15*071
193151-1
39* 10
3
2 2 21*27
14*719
14 635*1
96*49
3
4 228-58
15 * 060
193542*2
37-85
4
2 449'7*
2 7 18*27
14*750
14 16 11*0
95*48
4
4 458"9i
15-048
193925*3
36-51
5
14*770
142540*9
94'47
1
4 729*16
15*036
1943 0*3
35* 16
6
2 946-95
14*790
H35 4*6
93*43
4 9 59-34
15*011
194627*2
33-8i
7
2 12 15*75
2 1444*66
14*809
144422*0
91*38
I
4122943
15*008
194946*1
3*'47
8
14*818
H53 33"*
15 238*0
91*33
4H59-43
H'993
195*5^-8
31*11
9
2 17 13*69
14-&47
90*16
9
4172935
*4'977
19 55 59*5
19*77
10
2 1942*83
2 22 12*08
14*866
151136*3
89*18
10
41959*16
422 28*87
14*960
195854*0
18-41
11
14*883
15 2028*2
88*09
11
14*941
20 140*5
17*08
12
2 244I'4£
14*900
152913*4
86*98
12
42458*47
24*924
20 4 18*9
20 649*2
*5'73
13
2 27 10*88
14*917
153752*0
85*87
13
42727*96
14*904
14*38
H
2 2940*44
•M'934
154623*9
H-75
H
42957*32
14-883
20 911*5
13*04
15
2 32 10*09
H'949
155449*0
83-61
if
43226-56
14*863
20 11 25*7
21*70
16
23439*83
237 9-66
14*964
16 3 7*2
l6 II 18-6
81 -47
16
4 34 55-68
14*842
20 13 31*9
20-36
:i
14*978
81*31
17
43724*66
24*818
20 15 30*0
19-01
2 39 39'57
*4*993
l6 19 23*0
80*14
18
4 39 5350
H'795
20 17 20*1
17*69
19
242 9*57
15*007
162720*3
16 35 io*6
7«-97
19
4 42 22*20
M'77*
2019 2-3
16-36
20
24439*65
15*019
77 '79
20
4 44 50*75
14*746
202036*4
15-03
21
247 9-80
15*031
164253*8
76*60
21
447I9*I5
14*7*0
2022 2*6
13-70
22
24940*03
15*043
165029-8
165758-6
75*40
22
44947-39
4 52 15*46
14*693
2023 20*8
12*38
23
2 52 10*32
2 5440-68
15*054
74*19
23
14*665
2024 31*1
n*o6
*4
15*065
N.17 520-1
71*97
•M
45443-37
14*637
N.20 25 33'5
9-74
Digitized by
Google
XII.
OCTOBER, 1 88a.
17
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
9
10
11
12
13
*5
16
IS
19
20
21
22
23
9
IO
II
12
»3
14
15
16
II
19
20
21
22
*3
*4
Right
Ascension.
Var.
in xo".
Declination.
Var.
in io".
Sunday
4 54 43
4 57"
4 59 38
526
5 4 33
570-
5 9*7
51153-
5 1420
5 1646*
5 19 12
52137-
5*4 3
52628
52855-
53118*
5 3343'
536 7-
53831
54055-
5 43 19
5 45 4*
548 6
55028
24-637
24*608
*4-57»
*4'547
24-516
24-483
24-450
H # 4*7
24-383
24-348
24-312
24-276
24-239
24*201
24*162
24-124
24-085
24*044
24*003
23*962
23-921
23*879
23-836
23*792
zg.
N.20 25 35
20 2D 25
20 27 14
20 27 53
20 28 24
202847
20 29 3
2029 II
20 29 II-
2029 3'
20 28 48
2028 25
202755
2027 17
2026 31*
20 25 39
20 24 39
2023 31
2022 16
20 20 54
20 1925*
20 1748*
20 10 4
N.20 14 14
9*74
O
8-43
I
7-12
2
5-82
3
4*5*
4
3-23
5
1-94
6
0-65
7
0-63
8
z'89
9
3'*5
10
4*43
11
5-68
12
6-93
*3
8-18
14
9*4*
15
10*64
16
11-87
17
13-08
18
14*28
J 9
'5*49
20
16*69
21
17-88
22
19-05
23
55 13
5736
5 5*5i
5 55
5
5 59 57
6 2 19-
440
7 *
9 22
1142
J t *
10 22
1842
621 I
623 20
62539
62757
6 30 15
Monday 30.
55 23'748N.20 12 16
23-704
6
3*33
23*660
23-615
23-568
23-522
*3'477
23-429
23-382
»3'335
23-287
23-238
23-190
23*141
23-092
78,23-043
89 22 '993
70 '22*944
22 22-894
63451
637 8*43|22*843
63925-
64141-
64358-
646 14-25 '22-642
648 29-95 22*591 N.18 51 58
, 34,«'793
•95 22*743
'25 22*692
20 10 II*
20 759-
20 540*
20 3 15-
20 042*
1958 3-
195517-
195225
19 49 26
194620*
1943 8
193949-
19 3624*
19 32 52
1929 14-
19 25 30
19 21 40-
191743*
191341*
19 932-
19 5 18-
19 057-
18 56 31
3 20*22
5| ai *39
6.22*55
9 23*69
3 2 4-»3
9 a 5*97
7 27*09
8 28*21
29*32
30*41
31*50
32*59
3367
34' 73
35'78
36-83
37-87
38-89
8139*92
* 4o-93
6 41-93
o 42*92
5 43*91
1 1 44' 88
9:45*85
Bight
Ascension.
Var.
inio**.
Declination.
Var.
inio«
Tuesday 31.
h m b
64829-95 22*591 N.l8 51
65045-34 22-539 1847
653 0-42 22488 1842
65515-20 22-437 1837
65729-67 22-387 18 32
65943*84 22335 1827
7 I 57-69 22*283 l8 22
7 4 11*24 *»'*3* 18 17
7 624-48 22-181 18 12
7 8 37*41 22-129 18 6
7 10 50-03 22-078 18 1
7 13 2*34 22*027 I755
71514*35 21-976 1750
71726-05 21*924 1744
71937*44 21-873 17 3 8
721 48-53 21*822 17 32
72359-31 11*771 1726
726 9*78 21*720 17 20
7 28 19-95 21-670 17 14
7 3029-82 21-619 17 8
7 3* 39'38 21-568 17 2
73448*64 21*518 1655
7 3657-60 21*468 1649
739 6*26 21*4x8^1642
Wednesday, NOV,
741 14-62 21.-368lN.1636
58-9!
20*9
37*3
47 '9!
53-0
52*6
46*6
35*2
18
56
56
18
359
480
SS'*
57*3
54*7
47*2
34*9
5^
29-9
59
, I.
23-8!
45*85
46- 8c
47*75
48-69
49*61
50"53
5-*45
5**35
53**4
54-12
54*99
55*86
56-71
57*5*3
58*40
5923
60*03
60*84
61-65
62*44
63*22
64 *oc
64-76
65-51
66*25
PHASES OF THE MOON.
Oct. 3
<[ Last Quarter
- 14
11
New Moon -
- 18
19
J First Quarter
- 11
26
O Full Moon -
- 2
m
54'!
33 - <
Oct. 9
*4
<[ Apogee ■
C- Perigee •
5
'7
Digitized by
Google
176
OCTOBER, 1882.
xm.
MEAN TIME.
LUNAR DISTANCES.
PX.
PX.
of
IX*.
of
diff.
diff.
1 Of*
or*
1 *
t *
1
FomalhautW. 1 93 37 12
a Pegasi W. 76 727
2900
95 9 3 1
2922
96 41 22
2944
98 12 45
81 4 8
2967
2584
77 4 6 44
2601
79 25 38
2618
2635
a Arietis W.
32 29 46
2592
34 8 52
2597
35 47 5»
2604
37 26 41
2613
Pollux B.
45 35 5i
2597
43 56 52
2627
42 18 33
2658
40 40 57
2691
Regulus E.
81 35 2
2448
79 5* 35
2467
78 10 35
2487
76 29 3
2505
Sun E.
121 33 29
2761
119 58 10
2782
118 23 18
2802
116 48 52
2822
2
a Pegasi W.
89 10 38
2726
90 46 44
2744
92 22 25
2763
93 57 4i
2782
a Arietis W.
45 37 23
2670
47 H 43
2684
48 5' 44
2698
50 28 27
2711
Saturn W.
24 20 18
«S77
26 5 44
2594
27 44 47
2610
29 23 28
28 10 18
63 12 40
2627
Pollux E.
Regulus E.
32 44 44
68 8 3
2888
2601
31 12 10
66 29 9
2938
2621
29 40 40
64 50 42
2993
2639
3054
2658
Sun E.
109 3 13
2921
107 31 21
2941
105 59 54
2961
104 28 5[2
2979
3
a Arietis W.
58 27 20
*7*3
60 2 10
2798
61 36 41
281Z
63 10 54
2826
Saturn W.
37 3 1 H
2710
39 7 4i
2725
40 43 48
2741
42 19 34
2756
Aldebaran W.
25 27
2772
26 35 31
2783
28 10 21
2795
29 44 5 6
2806
Regulus E.
55 8 44
2749
53 33 9
95 30 48
2766
5i 57 57
2784
50 23 8
280X
Sun E.
96 59 32
3072
3090
94 2 26
3x06
92 34 24
3124
4
a Arietis W.
70 57 32
2892
72 30 1
2905
74 2 13
2917
75 34 10
2929
Saturn W.
50 13 33
2827
51 47 26
2840
53 21 2
2853
54 54 21
2866
Aldebaran W.
37 34 4
2866
39 7 7
2877
40 39 55
2889
42 12 28
2901
Regulus E.
42 34 36
2886
41 1 59
2902
39 ^9 42
2919
37 57 47
81 1 49
2935
Sun E.
85 19 15
3203
83 53 9
3217
82 27 20
323*
3245
5
a Arietis W.
83 10 15
2984
84 40 48
2995
86 11 7
3005
87 4i 14
3014
Saturn W.
62 37 6
2922
64 8 57
2932
65 40 35
2942
67 12 1
2952
Aldebaran W.
49 5J 43
2953
51 22 55
2962
52 53 55
2972
54 24 43
2981
Jupiter W.
27 26 43
2977
28 57 25
2985
30 27 57
2993
31 58 19
69 46 38
3000
Sun E.
73 58 5
3308
72 34 3
33X9
71 10 14
333i
334i
6
Saturn W.
74 46 22
2992
76 16 45
2999
77 46 59
3006
79 17 5
3012
Aldebaran W.
61 56 5
3019
63 25 54
3027
64 55 33
3<>33
66 25 5
3<>39
Jupiter W.
39 27 53
3035
40 57 22
3041
42 26 44
3<>47
43 55 58
26 5 8
3053
Pollux W.
22 7 51
3632
23 25 51
3568
24 45
35i5
347 «
Sun E.
62 51 28
3386
61 28 56
3395
60 6 34
3402
58 44 20
3408
7
Saturn W.
86 45 48
3037
88 15 15
3041
89 44 37
3<>45
9 1 13 54
3048
Aldebaran W.
73 5i *
3064
75 19 56
3067
76 48 46
3071
78 17 31
3074
Jupiter W.
51 20 33
3076
52 49 12
3079
54 17 47
3082
55 46 18
3086
Pollux W.
3* 55 44
3336
34 19 »4
3319
35 43 3
33<>5
37 7 9
3292
Sun E.
5i 54 59
3438
50 33 26
3443
49 I* 58
3447
47 50 35
3452
8
Aldebaran W.
85 40 24
3086
87 8 51
3087
88 37 16
3088
90 5 40
3089
Jupiter W.
63 8 5
3096
64 36 20
3096
66 4 34
3098
67 32 46
3098
Pollux W.
44 10 53
3*45
45 3 6 9
3239
47 « 3 2
38 22 42
3232
48 27 3
3226
Sun E.
41 4 42
3467
39 43 4i
3469
347 »
37 1 46
3473
9
Jupiter W.
74 53 46
3096
76 22
3096
77 50 14
3094
79 18 31
3093
Pollux W.
55 36 20, 3200
57 2 29
3195
58 28 44
3190
59 55 5
26 15 9
3186
Sun E.
30 17 29 3479
28 56 41
3480
*7 35 55
3480
3482
I' 3
Sun W.
13 5i 4 34H
'5 13 5
3394
16 35 28
3377
17 58 11
3362
Digitized by
Got
o
XIV.
OCTOBER, 1882.
17:
MEAN TIME. j
LUNAR DISTANCES.
!
£
Star's Name
P.L.
P.L.
P.L.
P.L.
|
and
Midnight.
of
XV*.
of
xvim
of
XXI*.
of
Position.
diff.
dift
difll
di£
t *
/ *
Of*
f n
1
FomalhautW.
99 43 39
82 42 15
299a
101 14 2
3016
102 43 55
3041
104 13 17
3067
a Pegasi W.
2654
84 19 57
2672
85 57 '5
2690
87 34 9
2708
a Arietis W,
39 5 19
2623
40 43 43
2633
42 21 53
2645
43 59 47
34 18 16
2658
Pollux E.
39 4 5
2726
37 27 59
2763
35 5* 4*
2802
2843
Regulus £.
74 47 57
2525
73 7 l 9
»544
71 27 7
2564
69 47 22
2582
Son E.
"5 14 S3
2842
113 41 19
2862
112 8 12
2881
no 35 29
2902
2
a Pegasi W.
95 3* 33
2800
97 7 1
2818
98 41 5
2837
100 14 45
2855
a Arietis W.
52 4 5«
2726
53 40 57
2740
55 I* 44
*75S
56 52 n
2768
Saturn W.
31 1 46
2644
32 39 41
2661
34 17 13
2676
35 54 24
2693
Pollux E.
26 41 12
3122
25 13 29
3200
2 3 47 20
58 21 5
3291
22 22 58
3397
Regulus E.
61 35 4
102 58 13
2676
59 57 52
2695
2713
56 44 43
2731
Sun E.
2998
101 27 58
3017
99 58 7
3<>35
98 28 38
3054
3
a Arietis W.
64 44 48
2839
66 18 25
2852
67 5i 45
2866
69 24 47
2880
Saturn • W.
43 55
2770
45 50 7
2785
47 4 54
2799
48 39 23
2814
Aldebaran W.
3i *2 l 7
48 48 41
2818
32 53 22
2830
34 27 11
2842
36 45
2853
Regulus E.
2818
47 14 37
2835
45 40 55
2852
44 7 35
2869
Sun E.
91 6 43
3140
89 39 22
3^57
88 12 21
3'73
86 45 39
3188
4
a Arietis W.
77 5 52
2941
78 37 19
2952
80 8 32
2964
81 39 30
2974
Saturn W.
56 27 24
2877
58 12
2890
59 3* 44
2901
61 5 2
2912
Aldebaran W.
43 44 46
36 26 13
2911
45 16 51
2922
46 48 42
*933
48 20 19
*943
Regulus E.
2952
34 55
2969
33 H 8
76 46 50
2986
3i 53 38
3003
Sun E.
79 36 33
3*59
78 11 34
3*7*
3284
75 22 20
3297
5
a Arietis W.
89 11 10
3023
90 40 54
3032
92 10 27
3040
93 39 5o
3048
Saturn W.
68 43 14
2960
70 14 17
2969
7i 45 9
2977
73 15 50
2985
Aldebaran W.
55 55 20
2989
57 25 46
2997
58 56 2
3005
60 26 8
3013
Jupiter W.
33 28 32
68 23 14
3007
34 58 36
67 2
3015
36 28 30
65 37 °
3022
37 58 16
3029
Sun E.
33Si
3360
3370
64 14 9
3378
6
Saturn W.
80 47 3
3018
82 16 54
3023
83 46 38
3028
85 16 16
3033
Aldebaran W.
67 54 30
3045
69 23 47
3050
70 52 58
3°S5
72 22 3
3060
Jupiter W.
45 25 5
3058
46 54 6
3063
48 23 1
3068
49 5i 5°
3073
Pollux W.
27 26 4
3434
28 47 42
3404
30 9.54
3378
31 32 36
3355
Son E.
57 22 13
3416
56 15
34"
54 38 23
3428
53 16 38
3433
7
Saturn W.
92 43 8
79 46 12
3051
94 12 18
81 14 49
3<>S4
95 4i 24
3056
97 10 28
3057
Aldebaran W.
3078
3080
82 43 23 3082
84 11 55
3084
Jupiter W.
57 H 45
38 31 30
3088
58 43 9
3091
60 11 30*3092
61 39 49
3095
Pollux W.
3281
39 56 4
3270
41 20 50 3261
42 45 47
3253
Sun E.
46 29 17
3455
45 8 3
3459
43 4 6 53|3462
42 25 46; 3464
8
Aldebaran W.
9i 34 3
3089
93 2 26
3090
94 3° 48 3090
95 59 i° 3090
Jupiter W.
69 58
3098
70 29 10
51 18 27
3098
71 57 22' 3 o 9 8
73 25 34
3098
Pollux W.
49 52 4*
3220
3215
52 44 18; 3209
54 10 16
3204
Sun E.
35 40 51
3475
34 19 59
3475
32 59 7! 3477
3i 38 17
3479
9
Jupiter W.
80 46 49
3092
82 15 9
3090
83 43 S*\*°*7
85 n 56
3085
.Pollux W.
61 21 31
3182
62 48 2
3177
64 14 39; 317a
6^ 41 21
3167
Sun E.
24 54 25
3484
*3 33 43
34»S
22 13 2' 3487
20 52 23
3489
2
Sun W.
19 21 11
3349
20 44 26 3337
22 7 553325
23 3i 3?| 33i4 j
12
(nautical almanac, 1882.) D ^l£
7
8
OCTOBER,
, 1882.
XV.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L.
PX.
1
and
Noon.
of
III".
of
VP.
of
IX h .
of
Position.
diff.
diff.
diff.
diff.
/ n
O 1 H
1 *
/ *
13
a Aquilae E.
87 31 22
3371
86 8 33
3366
84 45 38
3363
83 22 39
3359
FomalhautE.
115 42 51
3554
114 23 26
3534
113 3 39
35i5
in 43 31
3498
'4
Sun W.
24 55 32
3305
26 19 38
3294
27 43 57
73 40 18
3284
29 8 27
3274
a Aquilae E.
76 26 51
3348
75 3 35
103 36 16
3347
3346
72 17
3347,
FomalhautE.
104 58 10
3420
3405
102 14 5
3392
100 51 40
3381
15
Sun W.
36 13 48
3226
37 39 26
3216
39 5 16
3207
40 31 17
3197
a Aquilae E.
65 20 59
3361
63 51 58
3367
62 35 4
3374
61 12 17
3382
FomalhautE.
93 56 18
3327
92 32 38
3318
91 8 47
3309
89 44 46
3301
16
Sun W.
47 44 H
3146
49 Ir 38
3^34
50 39 6
3124
52 6 47
3113
a Aquil© E.
54 21 13
82 42 26
3445
5^ 59 47
3463
51 38 42
3484
50 18
3509
FomalhautE.
3266
81 17 35
3261
79 52 38
96 48 30
3256
78 27 35
3252
a Pegasi E.
99 5i 52
2935
98 20 18
2924
2914
95 16 29
2903
'7
Sun W.
59 28 37
3<>55
60 57 42
3043
62 27 1
3030
63 56 37
3017
Antares W.
17 49
2983
18 31 23
2928
20 3 6
2883
21 35 47
2845
FomalhautE.
71 21 20
87 33
3241
6 9 55 59
3241
68 30 39
3242
67 5 20
3«45
a Pegasi E.
2851
8S 59 38
2840
84 26 2
2830
82 52 13
2819
18
Sun W.
71 28 32
2953
72 59 44
2939
74 3 1 14
2925
76 3 1
2911
Antares W.
29 29 51
28 22 50
2707
31 6 22
2685
32 43 22
2665
34 20 49
2646
Venus W.
2977
29 53 31
58 35 i5
*954
31 24 42
2931
32 56 21
2909
Fomalhaut E.
59 59 55
3276
3288
57 I0 50
3302
55 46 40
3318
a Pegasi E.
74 59 46
2769
73 H 37
2759
71 49 16
2750
70 13 42
2740
'9
Sun W.
83 46 28
2839
85 20 6
2824
86 54 2
2809
88 28 18
«794
Antares W.
42 34 24
2556
44 H l 9
2540
45 54 37
2523
47 35 19
2507
Venus W.
40 41 13
2811
42 15 26
2793
43 5o 3
2775
45 25 4
2757
FomalhautE.
48 51 4i
62 12 53
105 9 16
344?
47 30 19
3487
46 9 40
3532
44 49 5i
3585
a Pegasi E.
2698
60 36 ii
2691
58 59 19
2685
57 22 19
2679
a Arietis E.
2556
103 29 21
2541
101 49 5
2527
100 8 30
25x2
20
Sun -W.
96 24 34
2718
98 50
2703
99 37 26
2688
101 14 22
2673
Antares W.
56 4 22
2427
57 47 l8
2412
59 30 3 6
2397
61 14 15
2382
Venus W.
53 26
2669
55 3 21
2653
56 41 4
2636
58 19 11
2620
FomalhautE.
38 27 47
3986
37 15 54
4107
36 5 59
4248
34 58 18
4410
a Pegasi E.
49 l 5 44
2665
47 38 17
2666
46 52
2669
44 23 3 1
2675
a Arietis E.
91 40 32
2441
89 57 56
2427
88 15
2412
86 31 43
2399
u
Sun W.
109 24 9
2598
in 3 7
2583
112 42 25
2569
114 22 3
2555
Antares W.
69 57 57
2308
7 1 43 45
2294
73 29 53
2280
75 16 22
2266
Venus W.
66 35 19
2539
68 15 38
2523
69 56 19
2507
71 37 22
2492
a Pegasi E.
36 19 58
2753
34 44 29
2784
33 9 40
2822
3 1 35 41
2870
a Arietis E.
77 50 27
2332
76 5 14
2319
74 19 43
2306
72 33 53
2294
Saturn E.
97 16 51
2262
95 29 56
2249
93 42 42
2235
9 1 55 7
2222
22
Sun W.
122 45
2487
124 26 31
2475
126 8 19
2463
127 50 25
2452
Antares W.
84 13 43
2202
86 2 7
2190
87 50 50
2179
89 39 49
2168
Venus W.
80 7 43
2422
81 50 46
2410
83 34 7
2396
85 17 47
2384
a Arietis E.
63 40 26
2240
61 52 58
2230
60 5 15
2221
58 17 18
2213
Saturn E.
82 52 24
2159
81 2 55
2148
' 79 13 9
2137
17 23 6
2126
Aldebaran E.
96 42 3 2188
94 53 17 2175
93 4 '2
2164
91 14 51
2153
Digitized by
XVI.
OCTOBER, 1882.
179
MEAN TIME.
LUNAR DISTANCES.
Start Name
P.L.
P.L.
P.L.
P.L.
£
and
Midnight.
of
xv\
of
XVUIK
of
XXI".
of
ft
Position.
diff.
diff.
diff.
diff.
t ft
1 *
O 1 H
/ tt
x 3
a Aquilae E.
81 59 36
3356
80 36 29
3353
79 *3 l 9
3351
77 50 6
3349
FomalhautE.
no 23 4
3480
IO9 2 17
3463
107 41 12
3447
106 19 49
3433
H
Sun W.
30 33 9
3264
31 58 2
3*55
33 23 6
3246
34 48 21
3236
a Aquilae E.
7° 53 43
3349
69 30 20
335i
68 7 15
3353
66 44 5
3357
FomalhautE.
99 29 2
3369
98 6 10
3358
96 43 5
3347
95 19 47
3337
*5
Sun W.
41 57 30
3187
43 23 55
3177
44 50 32
3166
46 17 22
3156
a Aquilae E.
50 49 40
88 20 35
3391
58 27 13
86 56 15
3401
57 4 58
34H
55 42 57
3429
FomalhautE.
3293
3285
85 31 46
3*79
84 7 10
3272
16
Sun W.
53 34 4i
3102
55 2 49
3091
56 31 10
3078
57 59 46
3066
a Aquilae E.
48 57 46
3537
47 38 2
3568
46 18 53
3603
45 22
3644
FomalhautE.
77 2 27
3248
75 37 15
3*45
74 « 59
3»43
72 46 41
3*4i
a Pegasi E.
93 44 14
2893
92 n 46
2883
90 39 5
2871
89 6 9
2861
*7
Sun W.
65 26 28
3005
66 56 34
2992
68 26 57
2979
69 57 36
2965
Antares W.
23 9 17
2811
24 43 30
2781
26 18 23
2754
27 53 5i
2730
FomalhautE.
65 40 4
3248
64 14 51
3253
62 49 44
3259
61 24 45
3267
a Pegasi E.
81 18 10
2809
79 43 54
2798
78 9 24
2789
76 34 42
2779
18
Sun W.
77 35 6
2897
79 7 29
2883
80 40 10
2868
82 13 10
2854
Antares W.
35 58 4*
2627
37 37 1
2608
39 *5 45
2590
40 54 53
2574
Venue W.
34 28 28
2889
36 1 1
2869
37 34
2849
39 7 24
2830
FomalhautE.
54 22 49
3337
52 59 20
3359
51 36 16
3385
50 13 42
34H
a Pegasi E.
68 37 55
2731
67 1 57
2722
65 25 46
2714
63 49 25
2706
19
Sun W.
90 2 54
2779
91 37 49
2764
93 13 4
2749
94 48 39
2734
Antares W.
49 16 22
2490
5° 57 49
H74
52 39 3 8
2459
54 21 49 H43
Venus W.
47 ° *9
2739
48 36 17
2722
50 12 28
2704
5i 49 3
2687
FomalhautE.
43 3i °
3644
42 13 13
3712
40 56 38
3790
39 41 26
3881
a Pegasi E.
55 45 10
2675
54 7 56
2670
52 3° 35
2667
50 53 11
2665
a Arietis E.
98 27 34
2498
96 46 19
2484
95 4 43
2470
93 22 48
2455
20
Sun W.
102 51 38
2658
104 29 15
2642
106 7 13
2627
107 45 31
2612
Antares W.
62 58 16
2366
64 42 39
2351
66 27 24
2337
68 12 30
2322
Venus W.
59' 57 39
2602
61 36 31
2586
6 3 l 5 45J*57o
64 55 21
2554
FomalhautE.
33 53 5
4602
32 50 43
4825
31 51 275088
30 55 40
5401
a Pegasi E.
42 46 18
84 48 7
2683
41 9 15
2695
39 32 28^2709
37 56
2728
a Arietis E.
2386
83 4 12
2371
81 19 56
2358
79 35 21
2345
21
Sun W.
116 2
2540
117 42 17
2527
119 22 53
2514
121 3 47
2500
Antares W.
77 3 "
2253
78 50 20
2239
80 37 49
2226
82 25 37
2214
Venus W.
73 18 46
2478
75 30
2464
76 42 34
2449
78 24 59
2436
a Pegasi E.
30 2 44
2930
28 31 3
3004
27 S5
3095
25 32 39
3210
a Arietis E.
Saturn E.
70 47 45
90 7 13
2283
2209
69 1 20
88 18 59
2272
2196
67 14 39
86 30 26
2260
2184
65 27 40
84 4 1 34
2249
2172
22
Sun W.
129 32 46
2440
131 15 24
2429
132 58 17
2419
134 41 25
2409
Antares W.
91 29 5
87 1 44
2157
93 l8 37
88 45 58
2147
95 8 24
2137
96 58 26
2128
Venus W.
2373
2362
90 30 28
2351
92 15 13
2341
a Arietis E.
56 29 10 2205
54 4o 5°
2198
52 52 19
2192
51 3 40 2187
Saturn E.
75 32 46J2115
73 42 10
2105
71 51 19
»5 45 9
2096
70 13 2086
83 54 44;* II 4
Aldebaran E.
89 25 13 2143
87 35 19
2132
2122
Digitiz
ed by V
N 2
i8o
OCTOBER, 1882.
XVII.
MEAN TIME. .
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L.
PX.
i
and
Noon.
of
III*.
of
VP.
of
IX*.
of
Position.
diff.
diff.
diff.
diff.
1 n
t *
# n
1 *
23
Venus W.
94 13
2331
95 45 28
2322
97 30 55
*3H
99 l6 34
2306
Fomalhauf; W.
29 27 11
5481
30 18 8
5086
31 r 3 56
4754
32 14 10
447i
a Arietis E.
49 H S3
2183
47 26
2180
45 37 3
2179
43 48 4
2179
Saturn E.
68 8 52
2077
66 17 18
2070
64 25 32
2062
62 33 34
2054
Aldebaran E.
82 4 6
2105
80 13 14
2096
78 22 9
2089
76 30 53
2082
24
FomalhautW.
38 9 23
3543
39 *9
34*3
40 50 51
33'7
42 14 43
3224
a Arietis E.
34 43 53
2206
3* 55 35
2220
3 1 7 37
2237
29 20 5
2260
Saturn E.
53 " 13
2028
51 18 22
2024
49 25 26
2021
47 32 25
2019
Aldebaran E.
67 12 5
2055
65 19 57
2052
63 27 43
86 7 36
2050
61 35 26
2048
Jupiter E.
89 52 32
2044
88 7
2041
2038
84 15 1
2035
25
FomalhautW.
49 37 43
2902
5i 9 59
2859
52 43 10
2822
54 17 10
2789
a Pegasi W.
29 12 21
2700
30 49 1
2631
32 27 13
*575
34 6 42
2529
Saturn E.
38 6 55
2020
36 13 52
2023
34 *° 53
2026
32 28
2030
Aldebaran E.
52 13 38
2049
50 21 20
2052
48 29 7
2055
46 36 59
2060
Jupiter E.
74 51 29
2033
72 58 47
2035
71 6 8
2038
69 13 33
2041
Pollux E.
94 39 47
21x8
92 49 15
2119
90 58 45
2122
89 8 19
2125
26
FomalhautW.
62 16 12
2682
63 53 16
2670
65 30 37
2661
67 8 10
2654
a Pegasi W.
42 37 2
37 18 29
2393
44 20 47
2380
46 a 50
33 3 6 3i
2369
47 49 9
2361
Aldebaran E.
2095
35 27 22
2105
2117
3* 45 58
2129
Jupiter E.
59 52 17
2069
58 29
2076
56 8 53
2085
54 17 30
2094
Pollux E.
79 57 52
2155
78 8 17
2163
76 18 54
2173
74 29 46
2184
27
FomalhautW.
75 17 15
2651
76 55 1
2656
78 32 40
2663
80 10 10
2670
a Pegasi W.
56 32 22
2356
58 17
2361
60 1 31
2366
61 45 55
»373
Jupiter E.
45 4 23
2149
43 H 3 8
2163
41 25 14
2176
39 36 10
2190
Pollux E.
65 28 26
2249
63 41 11
2264
61 54 19
2281
00 7 52
2299
Regulus E. '
101 56 24
2166
100 7 6
2179
98 18 7
2191
96 29 26
2205
28
Fomalhaut W.
88 14 23
2731
89 50 22
*747
91 25 59
2765
93 1 13
2783
a Pegasi W.
70 24 53
2423
7* 7 55
2436
73 50 39
2449
75 33 4
2464
a Arietis W.
26 50 55
*495
28 32 15
2485
30 13 49
2480
31 55 30
H79
Pollux E.
51 22 29
240 1 •
49 38 56
2425
47 55 57
2451
46 13 35
2477
Regulus E.
87 31 17
2279
85 44 46
2295
83 58 39
2311
82 12 56
2328
29
a Pegasi W.
83 59 49
2543
85 40 2
2561
87 19 51
2579
88 59 15
2597
a Arietis W.
40 23 7
2509
42 4 8
2519
43 44 54
2531
45 25 ^\
*544
Saturn W.
20 41 41
2391
22 25 28
2407
24 8 52
2423
25 5i 54
*439
Pollux E.
37 5i 43
2636
36 13 37
2675
34 3 6 *4
2718
33 8
68 22 31
2764
Regulus E.
73 3° 40
2418
7 1 47 31
2436
70 4 48 2455
»474
30
a Arietis W.
53 43 H
2616
55 *i 47
2632
56 59 59 2647
37 41 58 2561
58 37 5i
2663
Saturn W.
34 21 8
2526
36 1 45
*543
39 ** 47
»579
Aldebaran W.
20 13 34
2619
21 52 3
2627
23 30 21
2637
25 8 25
2649
Regulus E.
5 2 57 5 i
128 35 18
2571
58 18 16
2590
56 39 7
2610
55 26
2629
Sun E.
2880
127 2 34
2900
125 30 15
2920
123 58 21
2939
31
a Arietis W.
66 41 43
*744
68 17 25
2760
69 52 46
2776
71 27 46
2792
Saturn W.
47 34 49
2666
49 I2 *5
2683
50 49 18
2699
52 25 59
2714
Aldebaran W.
33 14 3i
4? 53 35
2718
34 50 47
2732
36 26 44
*747
38 2 21
2762
Regulus E.
2728
45 17 32
»747
43 4i 55
2767
42 6 44 2787
«un E. 116 25 1 3035 114 55 32
3055 113 26 27 3073^
in 57 44 3091!
o
XVIII.
OCTOBER, 1882.
18
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
1
and
Midnight*
of
Position.
diff.
/ *
# *
9
H
/ f
n
Venus W.
101 2 25
2299
102 48 26
2292
104 34 37
2287
106
20 56
2282
Fomalhaut W.
33 18 28
4228
34 26 28
4018
35 37 5°
3837
36
52 14
3680
a Arietis E.
4i 59 4
2180
40 10 6
2183
38 21
l S
2188
36
32 27
2196
Saturn E.
60 41 24
2048
58 49 4
2042
5656
35
2037
55
3 58
2032
Aldebaran E.
74 39 * 6
2075
72 47 48
2069
70 56
1
2064
69
4 7
2059
24
Fomalhaut W.
43 40 H
3H3
45 7 42
3071
46 36
27
3008
48
6 30
2952
a Arietis E.
27 33 7
2289
25 46 51
2325
24 1
28
2371
22
17 12
2431
Saturn E.
45 39 21
2018
43 46 15
2017
4* S3
7
2018
40
2019
Aldebaran E.
59 43 6
2046
57 5° 44
2046
55 o s !
21
2046
54
5 59
2047
Jupiter E.
82 22 22
2034
80 29 40
2033
78 36
57
2032
76
44 13
2032
25
Fomalhaut W.
55 5i 52
2760
57 *7 x 3
37 28 42
»735
59 3
6
2714
60
39 27
2696
a Pegasi W.
35 47 15
2490
2458
39 10
54
2432
4° 53 43
241 1
Saturn E.
30 35 12
2035
28 42 33
2042
26 50
4
2049
24 57 45
2057
Aldebaran E.
44 44 58
2065
42 53 5
2071
I 1 I
22
2078
39
9 49
2086
Jupiter E.
67 21 3
87 17 58
2046
6$ 28 40
2050
63 30
«3
2055
61
44 15
2062
Pollux E.
2130
85 *7 44
2134
83 37
37
2140
81
47 39
2147
26
Fomalhaut W.
68 45 52
2649
70 23 40
2647
72 1
3 S
2646
73
39 24
2647
a, Pegasi W.
49 33 39
2356
51 18 17
2354
53 2
58
*353
54 47 41
2354
Aldebaran E.
29 55 43
2143
28 5 50
2159
26 10
20
2176
24
27 16
2195
Jupiter E.
52 26 21
2103
50 35 27
2113
48 44 48
2125
i 6
54 27
2136
Pollux E.
72 40 54
2195
70 52 18
2207
69 4
1
2220
67
16 3
2234
27
Fomalhaut W.
81 47 30
2680
83 H 37
2690
8 * I
30
2703
86
38 6
2717
a Pegasi W.
63 30 9
2381
65 14 n
2390
66 58
2400
68
4 1 35
2412
Jupiter E.
37 47 27
2205
3 I 5 ? 1
2221
34 "
n
2237
32
23 39
2255
Pollux E.
58 21 51
2317
56 36 16
2337
54 5i
10
*357
53
6 34
2379
Regulus E.
94 4i 6
2219
92 53 6
2233
9' 5
27
2248
89
18 11
2263
28
Fomalhaut W.
94 3 6 4
2802
96 10 29
2823
t 74 i
80 38
27
2845
t 9
'7 57
2867
a Pegasi W.
77 15 8
2479
78 56 51
2494
*3
2510
82
19 13
2527
a Arietis W.
33 37 x 3
2481
35 18 53
2485
37
27
2491
38
4i 53
2500
Pollux E.
44 3 l 49 *5<>5
42 50 43
2535
41 10
19
2567
39
30 38
2600
Regulus E.
80 27 38
2346
78 42 45
2364
76 58
18
2381
75
14 16
2399
29
a Pegasi W.
90 38 14
2615
92 16 48
2635
93 54
56
2653
95
32 39
2672
a Arietis W.
47 5 3 6
2557
48 45 3°
2572
50 25
4
2585
52
4 19
260c
Saturn W.
27 34 33
2456
29 16 48
2473
30 S 8
39 2 49°
l \
40 6
2508
Pollux E.
31 24 52
2814
29 50 43
2870
28 17
46
2934
26
46 10
3006
Regulus E.
66 40 41
2493
64 59 18
2513
63 18
23
2531
61
37 53
2551
30
a Aiietis W.
60 15 20 2679
61 52 28
2695
63 29
15
2712
65
5 39
2723
Saturn W.
41 1 11 2596
42 40 n
2614
44 18
47
2631
45
57
2649
Aldebaran W.
26 46 14 2661
28 23 46
2675
30 1
2689
3 o
37 55
270]
Regulus E.
53 22 11
2649
51 44 22
2669
50 7
2689
48
30 5
2708
Sun E.
122 26 52
2959
120 55 48
2978
119 25
8
2997
117 54 52
3015
3 1
a Arietis W.
73 2 2 5
2807
74 36 44
2822
76 10
43
2837
77 44 23
2851
Saturn W.
54 2 18
2731
55 38 16 2748
41 12 36' 2792
57 13
52*2763
58
49 »
277?
Aldebaran W.
39 37 39
2778
42 47
15I2807
4+
21 34
2821
Regulus E.
40 31 59
2806
38 57 39i 28 *7
37 23
46 2847
35
50 19
286;
Sun E.
no 29 24
3109 109 I 25'3"7 I07 33
48 314+
100
6 32 3163
o
182
NOVEMBER, 1882.
AT APPARENT NOON.
pi
Q
THE SUN'S
Apparent
Right Attention.
Var.
in
1 hoar.
Apparent
Declination.
Var.
in
1 hoar.
Sidereal
Time of
the Semi-
diameter
passing
the
Meridian.*
Equation of
Tim*,
to be
subtracted
from
Apparent
Var*
in
1 hoar.
Wed.
Thur.
Frid.
i
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
Sun.
i
Mon.
,Tues.
Wed.
Thur.
Frid.
Sat.
1
Sun.
Mon.
• Tues.
jWed.
Thur.
Frid.
Sat.
Sun.
Mod.
Tues.
Wed.
Thur.
Frid.
h m 1
4 26 19*85
4 3° iS'5o
4 34 "'99
4 3 8 9*3i
4 4; 7*47
4 46 648
4 50 6'34
4 54 7*° 6
4 58 863
5 2 11*06
5 6 H'3 6
5 10 18-50
5 H 23*48
5 18 29/31
5 22 35-98
5 26 43-47
5 30 51-78
5 35 0-90
5 39 10*83
5 43 ^1*55
5 47 33*07
5 5i 45*37
5 55 58-46
6 o 12-31
[6 4 26
[6 8 42-
6 12 58-
93
3 1
43
6 17 15*28
6 21 32*85
6 25 51-12
16 30 10*06
■
9*802
9-836
9-871
9*906
9*941
9*976
o'oia
0*048
0*083
0*119
0*155
0*190
0*225
0*260
0*295
0*329
0*363
0*397
0*430
0*463
0*496
0*529
0*561
0*593
0*625
0*656
0*687
0*717
0*747
0-775
10*803
4 29 49*2 48*01
4 48 54-4 47*4*
5 7 45*3 4«*8x
5 26 21*4 4^*19
5 44 42-2 4554
6 2 47*4 44-88
6 20 36*6 44*21
6 3 8 9'4 43'5i
6 55 25*2 42*80
7 12 23*8 42*07
7 29 4-6 41*32
7 45 27-4 40*56
8 1 3**7 3979
8 17 17*1 3«*99
8 32 43-1 38-18
8 47 49'5 37*35
9 2 35 7 3650
9 17 1-5 35*64
9 3 1 6*4 34*76
9 44 50-0 33*87
9 58 12' I 32*96
20 II I2'2 32-04
20 23 50-0 31-10
20 36 5*2 30*16
20 47 57*5 29-19
20 59 26*4 28-21
21 10 31-7 27*22
21 21 13*2 26*22
21 31 30*4' 25-20
21 41 230 24*17
S.21 50 50*8
23^3
695
7*07
7-19
7-30
7*42
7*54
7-65
7*77
7*«9
8-oj
8-13
8-25
8*37
It 9
8*6i
8-84
8-96
9.07
9-19
9.30
9*41
9*52
9*62
9*73
9-83
993
1002
10*12
10-21
I I0*30
i8**56
6 19-45
6 19*52
6 1876
6 17-15
6 14*70
6 11-41
6 7-26
6 2*25
5 56-39
5 49*67
5 4**n
5 33 - 7o
5 *M*45
5 H'37
5 3*46
4 5i*74
4 39*2i
4 25-87
4 "*74
3 5682
3 4i*J2
3 24*64
3 7*39
2 49-37
2 30*60
2 11*09
1 50-85
1 29*89
1 8*24
10 45*92
a
0*054
0*020
0*014
0*049
0*085
0*I2O
0*I55
0'I9I
0*226
0*262
0*298
0-333
0*368
O*403
0*437
0471
0*505
0*539
0*572
0*605
0*638
0*670
0*703
0*735
0*766
0*797
0*828
0858
0*887
0-916
0-944
j* Mean Time of the Semidiameter passing may be found by subtracting o* • 19 from the Sidereal Time.
o
II.
NOVEMBER, 188a.
183
AT MEAN NOON.
I
J
THE SUN'S
Apparent
Right Ascension.
Apparent
Declination*
Semi*
diameter.*
Equation of
Time,
to*«
added
to
Mean
Time.
Sidereal Time.
Wed.
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Frid.
10
11
12
*3
H
15
16
19
20
21
22
*3
24
26
27
28
29
30
31
h m 1
4 26 22*51
4 30 18 * 18
4 34 H 'M
4 38 12*00
4 42 10*17
4 46 9*18
4 So 9*04
4 54 9*7 6
4 58 "'33
2 13*75
6 17*03
21' l6
5 10
5 14 26*14
5 18 31*95
5 22 38*59
5 26 46*06
5 30 54*35
5 35 3'44
5 39 *3'34
5 43 24*03
5 47 35-5I
5 5i 47'77
5 56 o-8i
6 o 14*63
6 4 29*20
6 8 44*53
6 13 o-6o
6 17 17*40
6 21 34*91
6 25 53*11
16 30 ii*99
S.
4 3°
4 49
5 7 5
2*2
P
8*o
5 26 33*9
5 44 54*6
6 2 59*6
6 20 48*6
6 38 21*0
6 55 36*6
7 I* 34*9
7 29 x 5'5
7 45 Z*'o*
8 1 42 *a
8 17 27*1
8 32 52*8
8 47 58*8
9 2 44*8
9 17 I0'2
9 3i H'7
9 44 58'o
9 58 i9'7
20 11
20 23 57-0
20 36 ii'
19*5
•o
*8
20 48 3*7
20 59 32*3
21 10 37-3
21 21 18*4
21 31 35*2
21 41 27*5
S.21 50 55*0
t
16
16
16
9'7
9"9
•
1
1
1
16 ]
16
16
10-4
to-6
■o-8
1
x
1
16 :
16 i
16
ri'i
ii«3
n-5
t
1
1
16
16 :
16
[i-8
[2'0
[2*2
16
16
16 ]
[2'4
[2- 7
[2*9
16 1
16
16
IJ-I
[3-3
'3*5
I
16
16 i
16 ]
■3 - 7
13-9
14-1
It
16 ]
16 ]
16 ]
'4*3
'4*5
'4' 7
16 1
16 1
16 i
I4 -8
■S-o
15-2
16 i
16 1
16 i
5'3
55
15*7
16 15-8
16 18-57
16 19*45
16 19*51
16 18 '74
16 17*13
16 14*67
11*36
7*20
2*19
56*32
49 '59
42*02
33* 60
24*34
14-25
3*34
51*61
39*07
25*73
n*6o
56*68
40*97
24*48
7*22
12 49*20
12 30*43
12 10*92
ti 50*68
[I
[I
29*72
8*07
10 45*75
h m s
4 42 41-08
4 46 37^3
4 5o 34-'9
4 54 3o-74
4 58 27-30
5 2 23*85
5 6 20*41
5 10 16-96
5 H W"5*
5 18 10*07
5 22 6*63
5 26 3*18
5 29 59" 74
5 33 5629
5 37 52*85
5 4i 49-4o
5 45 45'96
5 49 42*51
5 53 39-07
5 S7 35 ^
6
57 3563
1 32-18
6 5 28*74
6 9 25*29
6 13 21*85
6 17 18*41
6 21
6 25
14*96
11*52
6 29 8-08
6 33 4-63
6 37 1*19
16 40 57-75
* The Semidiameter for Apparent Noon ma y be assumed the same as that for Mean Noon.
O
1 84
NOVEMBER, 1882.
in.
MEAN TIME.
•a
a
S
3
THE SUN'S
Apparent
Logarithm
of the
Radius
Vector
of the Earth.
Transit
of the
lint Point
of
Aries.
THE MOON'S
Longitude.
Latitude.
Semidiameter.
Horizontal Parallax.
iVboji.
Noon.
Noon.
Nixm.
Midnight.
Noam.
Midnight.
I
3
f *
218 59 7-5
219 59 14- 1
220 59 22*7
h
S.o*6o
0*64
0*65
9-9964710
•9963630
'9962560
*
h m b
9 *5 47' 6 *
9 IX 5 J '7i
9 7 55'8o
1 *
15 152
15 4-i
'4 55*4
1 »
IS 9'4
14 59'4
14 52- I
55 53'3!55 Ji'6
55 12-254 55'*
54 4°'5 54 *8-4
4
i
221
222
224
59 33*4
59 46-1
o-8
0*63
0-59
0-53
9*9961500
"9960450
'9959409
9 3 59* 8 9
q 398
8- 56 8-o8
H 49"5
14 46-3
H 45'7
14 47-6
14 45'7
14 46- 3
54 18*8
54 7'2
54 5'o
54 ii'8
54 5'o
54 7 - i
7
8
9
225
226
227
17-5
36-1
56-5
0*46
0*36
0*24
9-9958376
•9957351
•9956333
8 52 12-17
8 48 16*26
8 44 20-35
14 47'4
14 51-0
14 56-1
14 49°
14 53*4
14 59- 1
54 11-154 169
54 24-2,54 33'°
54 42-9 54 S3"9
10
11
12
228
229
23O
1 i8<8
1 42-9
2 8*6
S.0'I2
N.o'oi
0*13
9-9955323
•9954321
•9953326
8 40 24-44
8 36 28-53
8 32 32*62
15 2-3
15 0-3
15 16-8
IS 5*7
15 «3*o
IS 20-8
55 S-s'sS 1 8 -4
55 31-555 45*i
55 59'i56 13*4
'3
'4
IS
23I
232
233
2 35-8
3 4-6
3 34*7
0*25
0-35
0-44
9-9952339
•9951361
•9950393
8 28 36-71
8 24 40*80
8 20 44*89
IS 24-7
IS 3*'8
15 41-0
IS *8- 7
is 36*9
15 45* 1
56 27*956 42*6
56 57*4157 « - 4
57 27*557 42-7
16
'7
18
234
235
236
4 6*2
4 3»'9
5 12-7
0-50
0-53
o'53
9-9949436
•9948490
•9947559
8 16 48*98
8 12 53'07
8 8 57-16
IS 49*3
15 57*5
16 55
15 S3"4
16 i-6
16 9*2
57 57*9
58 28-2
58 57'3
58 131
58 43-o
59 ii-o
'9
20
21
237
238
*39
5 47'7
6 238
7 i'i
0*50
0-43
0-34
9.9946644
•9945746
•9944868
8 5 1-25
8 1 5-34
7 57 9'43
l6 I2'7
16 18-5
l6 22'2
16 158
16 20*7
16 23*0
59 23*7
59 45-o
59 58-6
59 3S'2
59 52-9
60 i*6
22
23
24
240
241
242
7 39'6
8 19-3
9 0-3
0'22
N.o'09
S.o'04
9*9944012
•9943178
•9942366
7 53 i3'52
7 49 l T**
7 45 « - 7°
l6 23"!
16 20*7
16 14-8
l6 22*3
16 l8'2
16 10-6
60 1-859 59*o
59 52-9 59 43 '7
59 3i '4,59 i6'2
25
26
i 27
243
244
245
9 42*6
10 26*3
11 11-3
o # i6
0-28
0-38
9-9941578
•9940815
•9940076
7 4' 2579
7 37 29'88
7 33 33*97
16 5-8
IS 54- 3
is 41-5
16 0*3
15 480
15 34'9
58 58'3-5S 38-3
58 16-557 53"4
57 *9'557 53
1
1
28
;*9
30
246
247
248
n 57-8
12 45-7
13 34*9
0-45
0-49
0*50
9-9939360
'9938666
'9937995
7 29 38*06
7 2 5 42*15
7 21 46-24
15 28-4
15 i6*o
iS 5*3
IS 22* 1
15 10-4
15 0-7
56 4i*4's6 i8 # 2
55 5-5-IJ55 35-5
55 i 6- 755 o-o
1
31
249
14 25-5
S.o*49
9*9937344
7 17 50*33
14 56-8
14 53*5
54 45 "5
54 33*5
1
Digitized by "
IV.
NOVEMBER, 1882.
185
MEAN TIME.
THE MOON'S
Longitude.
Noon.
Midnight
Latitude.
Noon.
Midnight
Age.
Noon,
Meridian Passage.
Upper. Lower,
10
IT
12
13
H
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
o /
120 32
I
20 32 3*0
32 50 18*4
o t
114 16 26-7
126 43 io*o
138 54 2-9144 54 58-1
150 53 38*2,156 50 37*0
162 46 27*1 168 41 39*9
174 36 44-7180 32 9*5
186 28 19-5
198 24 26*8
210 27 46-6
222 40 23*3
235 3 49'3
247 39 11-0
192 25 38*1
204 25 4-0
216 32 48*9
228 50 40*5
241 19 57*4
254 1 35*1
260 27 14*5266 56 13-2
273 28 34-3 280 4 21-3
286 43 36-8293 26 23-1
300 12 41-8
3*3 55 56*4
307 2 33*i
320 52 49-0
327 53 5-2
334 56 37" 1
342 3 12*6
356 24 27-0
10 53 47-9
349 I2 3 6 * 1
3 38 20-8
18 10 14-6
25 27 3-1
39 59 °'9
54 23 58*7
32 43 32*7
47 12 43-8
6i 32 4-4
68 36 23-0
82 31 30-9
96 6 4-9
75 36 21- I
89 21 30-5
102 45 6-i
109 18 32-7
122 9 10*1
115 46 30-2
128 26 49*6
134 39 50-7
140 48 395
146 53 45'9
152 55 42-1
O t *
S.4 44 15-4
5 7 47'8
5 16 53*8
5 11 59*0
4 53 44'2
4 23 2*9
3 4i 3'°
2 49 io*9
1 49 16-7
S. o 43 37*2
N.o 25 3-4
1 33 36-3
2 38 36-6
3 36 32-2
4 23 57*3
4 51 44'5
5 15 182
5 H 47'8
4 55 22-5
4 17 26-2
3 22 50*2
2 14 5 6 '3
N.o 58 25-8
S. o 21 11 -o
1 38 168
2 47 52-2
3 46 7-2
4 3° 33'9
5 o 0-7
5 14 l6*2
S. 5 *3 49'4
4 57 50'7
5 H 7'9
5 16 9*3
4 28*6
39 53'o
3 22-8
3
2 20
1 17
[6 14*6
20 6*2
0-4
S. o 9 28-3
N.o 59 33-4
2 6 46 3
3 8 40-6
4 1 45*9
4 42 43 # 8
5 8 41*2
5 17 23-3
5 7 27-4
4 38 38
3 52
2 50 17-0
'it
1 37 25-7
N.o 18 39*2
S. 1 o 22-8
2 14 17-0
3 l8 35*9
4
10 IO'I
4 47 "'6
5 9 »*3
5 «5 5°"2
S. 5 8 «'i
i
20*2
21*2
22*2
23*2
24'2
25*2
26'2
27*2
28-2
29*2
0-5
i-5
*'5
3*5
4'5
S'S
65
7*5
8-5
9"5
10-5
"•5
12-5
I3-5
H'S
'S'S
16-5
i7'S
18-5
19-5
20'5
h m
17 32-4
18 17-9
19 13
19 43-3
20 24*8
21 6*6
21 49-4
22 33*9
23 20'5
m
8-6
h
5
5 55-5
6 39-8
*
o
1
9*5
o-6
1 s n
2 40'8
3 40-2
7 "'4
8 4-1
8 45*7
9 27' 9'
10 n*4
10 56*9
u 44'7
12 34-8
13 26-8
14 20'0
16 6*r
4 33-016 59-1
5 24'9j I 7 50-6
6 16-2 18 41-7
7 7'4
7 59-2
8 52*3
9 47'4
10 44-3
11 42-5
12 40*8
13 37-7
14 32-0
15 23*0
16 io-8
16 55-8
17 38-9
19 33-1
20 25-5
21 19*6
22 15*6
23 13-3
ii * 7
1 9'5
2 5-2
2 57'9
3 47"3
4 33'6
5 175
Cuu^k
Digitized by
1 86
NOVEMBER, 1882.
MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
1
Right
Ascension.
Var.
lnio».
Declination.
Var.
inio».
i
Right
Ascension.
Var.
in io"».
Declination.
Vaar.
in io*".
Wednesday i.
Fbiday 3.
n m a ■
o 1 * *
h m ■ s
t * it
O
741 14*62
21*368
^163623-8
66-25
91839-79
19-372
N.io 827-6
9«*37
I
743 22 '68
21-319
162944*1
66-99
I
92035*93
922 31*88
19-341
95912-3
92-73
2
745 3°'45
21-270
16 22 59-9
67*72
2
19-310
94954*8
93*09
3
7 47 37'9 2
21*221
16 16 11-5
68*43
3
92427-65
92623*24
928 18 -66
19*280
94035-2
93*44
4
74945-10
21-173
16 9 18-7
69-15
4
19*251
93113*5
93*78
5
75151-99
21*124
16 221*7
69-85
5
19*222
921 49*8
94*12
6
753 5^59
756 4-90
21-076
155520-5
70-54
6
9 30 13*90
932 8-97
19*193
9 12 24*1
94-45
7
21-027
154815-2
71-23
7
19*165
9 * 5^4
85326*8
94*78
8
7 58 10*92
20-979
1541 5-8
71*90
8
9 34 3*88
19*138
95-o8
9
8 016-65
20-932
153352-4
7**57
9
9 35 58-63
19*111
8 43 55-4
95*39
10
8 2 22 a I0
20-884
152635-0
73**3
10
93753-21
19-084
8 34 22*1
95*70
11
8 427*26
20*838
151915-6
151148*4
73*88
11
93947-64
19-058
8 2447-0
95*99
12
8 632-15
20*792
74*5*
12
94141-91
19-033
8 15 10*2
96*28
13
8 836*76
20*745
15 419-4
75 15
13
94336*03
19*008
8 531*6
9-5*57
•14
8 1041*09
20*698
145646*6
75-78
14
94530-01
18*984
755 51*4
96-84
15
8 1245*14
20*652
1449 IO'O
76-40
15
94723-84
18*959
746 9-5
97*i2
16
8 1448-92
20-607
1441 29*8
77-00
16
94917-52
18-936
7 36 26*0
97*38
17
8 16 52*43
20*562
143346-0
77-60
17
951 11-07
18-914
72640*9
97*64
18
8 1855-67
20*518
1425 58*6
78-19
18
9 53 4 '49
18-892
71654-3
97*89
19
82058-65
20*474
14 18 7-7
78-78
19
9 54 57*77
95650*92
18-869
7 7 6*2
98*14
20
823 1-36
20*430
141013-3
79*36
20
18*848
657 16*6
98*38
21
825 3*81
20*387
14 215*4
79-93
21
9 58 43-95
10 036*85
18-828
64725*6
98*62
22
827 6*00
20*343
135414-2
N.1346 9*7
80*48
22
18*807
63733*2
98-85
23
8 29 7-93 20*300
81*03
23
10 229*63
18*788
N. 6 27 39*4
99*08
Thursd
AY 2.
Saturi
>ay 4,
8 31 9*60 20-258
N.1338 i-9
81-57
10 422*30
18-769
N. 6 1744*3 99*29
1
8 33 11*02
20'2l6
132950-9
82-11
I
10 614-86
18-750
6 747-9
99-50
2
8 35 12-19
20*175
13 21 36*6
82*64
2
10 8 7-30
10 9 59' 6 4
18-732
5 57 50'3
99-70
3
8 37 13-12 20-134
13 13 19*2
83-15
3
18-714
54751*5
99-91
4
8 39 13*80 20*093
13 458*8
83-67
4
10 11 51-87
18-697
53751-4
100' I I
5
841 14*23
20*052
125635*2
84-18
5
10 1344-00
18-681
52750*2
100-29
6
84314*42
20*013
1248 8-7
84*67
6
10 15 36-04
18-666
5I747-9
100*48
7
84514-38
19*973
123939*2
12 31 6*8
85*16
7
101727-99
10 19 19*84
18-650
5 744*5
100-65
8
847 14-10
'9*934
85-64
8
18*634
45740*1
100*83
9
84913*59
19*895
12 22 31-5
86*12
9
1021 11 *6o
18*620
44734*6
100-99
10
8 51 12*84
19*857
121353*4
86-58
10
1023 3' 2 8
18-607
43728*2
101*14
11
85311*87
19*819
12 5 12*5
87-04
11
102454-88
10 2646*40
1028 37*85
i8*593
4 27 20*9
101-30
12
8 55 10*67
19*782
11 56 28*9
87*49
12
18*581
4 17 12*6
101*45
13
857 9-25
*9*745
11 4742*6
87*93
13
18-568
4 7 3'5
ioi*59
14
859 7*61
19*709
113853-7
88*37
H
10 30 29*22
18*557
356 53-5
101-73
IS
9 ' 576
19*673
II 30 2*1
88*8i
15
1032 20*53
18-546
3 46 42 • 8
101-85
16
9 3 3' 6 9
19*638
II 21 8*0
89*23
16
103411*77
18-535
33631*3
101-98
1!
9 5 1-41
19*603
II 12 11*3
89*65
*1
1036 2-95
18-525
3 26 19*0
102*11
9 658*92
19-568
II 3 12*2
90-06
18
103754-07
18-516
3 16 o-o
102*22
19
9 856-23
19*534
1054 10*6
90*47
19
103945*14
18*507
3 5 5*4
102-32
20
91053-33
19*501
1045 6*6
90-86
20
1041 36*15
18*498
25538-2
102*42
21
9 12 50*24
19-468
1036 0*3
91-24
21
1043 27-12
18-491
24523-3
102*52
22
91446*95
91643-47
19-436
io 26 51-7
91-63
22
1045 18*04
18-483
2 35 7-9
102 *6a
*3
19-403
10 1740-7
92-01
23
1047 8*91
104859-75
18-476
2 24 51-9
102-70
24
91839-79
i9'37*
N.io 827*6
92*37
24
18-470
N. 2 1435-5 102-78
o
VI.
NOVEMBER, 1882.
18
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Right
Ascension.
Var.
inio-.
Declination.
Var.
In io*».
1
Right
Ascension.
Var.
in 10".
Declination.
Var.
inio"
SUtfDAY 5.
Tuesday 7.
h m a 1
1 H 19
h m 1 a
1 it *
O
104859-75
18-470
N. 2 14 35'S
102-78
121754-25
12 1946*88
18-767
S. 5 57 "'7 99-8
I
105050-55
18-464
2 4 186
102*85
I
18*785
6 7 I0'4 99*6
2
105241*32
18-459
154 1*3
102*92
2
12 21 39*65
18*803
617 7-9
99*4
3
105432-06
18-454
143 43*5
102-99
3
12 23 32*52
18*822
627 4'0
63658-8
99-2,
4
1056 22-77
18-450
133*5*4
103*04
4
I2 25 25*SI
18-842
99-0:
5
IO58 13 '46
18-447
123 70
103-09
i
12 27 18*62
18*862
6 46 52 • 3
98-7.
6
11 4-15
II 154-78
18*443
1 1248-3
103-14
12 29 11*85
18*882
65644*3
98-5,
j
18-440
1 229-3
103-18
1
12 31 5'20
18-902
7 634-8
98 - 3 <
II 345-41
18-438
052 io- 1
103*22
12 32 58*67
18-923
7 1623*9
9 8 ' :
9
II 53603
18-437
04150*7
103-25
9
12 34 52 a 28
18-945
726 11*4
97'7 (
10
II 726-65
18-436
031 31*1
103-28
10
12 3646*01
18-967
7 35 57-4 97-5=
11
II 917-26
18-435
021 ii*4
103-29
11
123839*88
18-989
74541*7
97**;
12
II II 7-87
18-435
1051*6
103*30
12
124033*88
12 42 28*02
19*012
75524*4
9 6* 9:
13
II 125848
18-435
N. 031*8
103-31
^3
19-035
8 5 5'4
96*6<
H
II 1449*09
18-437
S. 948*1
103 '32
H
124422*30
19-058
81444-7
9 6* 3 <
IS
II 16 39-72
18-438
020 8*o
103-31
15
I246 16*72
19*082
8 2422*1
96-0*
16
II 183035
18*440
3027*8
103-29
16
I248 11*29
19*108
8 33 57-8
95' 7!
*7
II 2021*00
18-443
04047*5
103*28
l l
1250 6-oi
i9'i3*
84331*6
95 '4 3
18
II 22 11*66
18-445
051 7*2
103-27
18
12 52 0*87
i9' x 57
853 3'5
95 -i(
'9
II 24 2-34
18-448
i 126*7
103-23
19
125355*89
19183
9 233-5
94-8;
20
112553-04
18-453
1 11 46-0
103-20
20
12 55 5106
19-208
912 1*5
94" 5<
21
112743-78
18-458
122 5*1
103-17
21
125746*39
125941*87
19-234
921 27*5
94- if
22
112934*54
18-463
1 32 24*0
103-12
22
19-261
93051*4
93*8
23
113125-33
18-468
S. 14242*5
103-07
23
13 I37-52
19-288
S. 94013-2
93 '4i
M
OXDA
>Y 6.
Wednes:
DAY 8.
11 33 16-1518-474
S. 153 0*8:103-02
13 3 33*33
19-315
S. 949 32-8
95850*3
93 •©!
1
11 35 7*02
18-481
2 3i8*7|io2-95
1
13 529-30
19*343
9**7
2
113657-92
11 3848-87
18*488
2 13 36*2 ioa-88
2
13 725*44
19*372
10 8 5*5
92-3
3
18-496
223 533
102-82
3
13 921-76
19*400
10 17 18*4
91-91
4
114039-87
18-504
2 34 IO'O
102-73
4
13 11 18-24
19*428
1026 29*0
91-5
5
11 42 30-92
18-513
244 26-I
102 - 64
5
13 13 14*90
19457
io35 37-3
91*1
6
11 4422*02
18-522
25441-7
102*56
6
131511-73
19-487
104443*1
105346-5
90-7
?
II 46 13-18118-532
3 456-8
102-47
1
13 17 8-74
19-516
90-3
II 48 4*4018-542
3i5"-3
102-36
13 19 5-92
19-546
11 247*4
89*9
9
H495568
18-552
32525*1
102*25
9
13 21 3*29
I9-577
u 1145*7
89-5
10
11 51 47-02
18-563
3 35 38'3
102*13
10
1323 0*84
19-608
11 2041*4
89-0
11
115338-44
18-575
3 45 50'7
102*01
11
132458*58
19-639
11 29 34*6
88*6
12
115529-92
18-587
356 2-4
ioi'88
12
13 2656-51
19-670
11 38 25*0
88*1
r 3
11 5721*48
18-599
4 613*3
101-75
13
13 2854*62
19-702
114712-7
87*5
l 4
11 59 I 3' 11
18*612
41623-4
101-62
14
133052*93
19-734
"55 57*7
8 7 *l
15
12 1 4*82
18*625
426 32*7
101-48
'i
133251*43
19-766
12 439*9
86-J
16
12 256*61
18-639
43641*1
101*32
16
133450*12
133649*00
19-798
12 13 19*2
86- 1
!2
12 4 48*49
18-653
44648*5
zoi*i6
:z
19-831
12 21 55*6
85'i
12 640*45
18-668
45655-0
101*00
133848*09
19*864
12 3029*1
85*i
x 9
12 832*51
18-684
5 7 0*5
100*83
19
I34047-37
19-897
12 38 59*6
84*1
20
12 1024*66
12 12 16*90
18*699
517 5*0
100*65
20
134246*85
19-930
124727-0
84-:
21
18*715
527 8*3
100*47
21
1344 46-53
19-964
125551*4
8 3 -l
22
12 14 9*24
18-732
53710*6
100*29
22
134646*42
19-998
13 412*6
83*1
23
12 10 1*68
18-749
54711*8
100*09
23
134846-51
20*032
13 12 30*7
82':
, H
121754-^3
18-767
S. 557"'7
99-88
24
13 5046*8120-067
S. 13 20 45*5
82*
Digitized by
I
i88
NOVEMBER, 1882.
VII.
9
10
11
12
13
14
!?
\l
l 9
20
21
22
23
o
1
2
3
4
5
6
7
8
9
10
11
12
'3
14
15
16
17
18
19
20
21
22
*3
24
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Right
Ascension.
Var.
inxtf*.
Declination.
Var.
in io*».
3 5046*81
35247-31
35448-02
3564894
35850-07
4 °5*'4*
4 2 52*96
4 4 54*73
[4 656*71
4 858*91
411 1-33
413 3*96
[415 6*8i
417 9*88
41913-17
421 16*67
1423 20*40
42524*35
42728*52
4293291
43137*52
43342-36
4 35 47*4*
43752*70
Thuesday
8,
a
20*067
20*101
20*136
20*I7I
20' 206
20'24I
20*277
20*3I3
20*348
20-385
20*421
20*457
20*493
20*530
20*566
20*603
20*640
20*677
20*7x3
20*750
20*788
20*825
20*862
20*898
S.
Feiday
4 39 58-2020*936
4 42 3*93,* '973
4 44 9*88
446 16*05
[448 22*45
45029*07
45235*91
45442*97
[45650*25
45857*76
5 1 5'49
5 3 13 '44
5 521*60
5 729*99
5 9 38-59
5 "47 # 42
51356*46
516 5-71
5 18 15*18
5 20 24*86
52234*76
52444*87
52655*19
529 5*72
531 16*45
S.
•010
•048
•085
•122
•158
•i9S
•233
'270
•307
'343
•379
•416
'453
•489
'5*4
•560
•596
•632
•668
•703
•738
•772
•8o6 ( S.
9-
O 9 9
3 2045-5
3 28 57-I
3 37 5*3
34510*2
35311-8
4 1 9
4 9 4'4
41655-4
[4 24 42 ■ 8
432 26*6
440 6-7
4 47 43'°
45515-6
5 M4'4
510 9-3
51730*2
52447*2
532 0*2
539 9' 1
54613-9
5 53H'5
6 o 10*9
6 7 3-1
6 13 50*9
O.
4
'5
64644-0
653 5-1
65921*5
7 533'3
71140*3
7 1742*6
72340*1
72932-7
73520*4
74i 3' 1
74640*9
75213*7
75741-3
8 3 3*9
8 821*2
8i333-3
8 1840*2
82341*8
82838*0
833 289
83814*3
82*20
81-65
81*09
80-54
79*97
79-38
78*80
78*20
77* 60
76*99
76*37
75*74
75*12
74*48
73*82
73*16
72*50
71*83
71*14
70*45
69*75
69*05
68*33
67*61
66*88
66*15
65*41
62034
627 13
63348 _ .
640 18-4 64^5
63*89
63*13
62*35
61*57
60*78
59-98
59-17
58-36
57*53
56*71
55*88
55-03
54-i8
53*3*
52*45
51*58
50*71
49-82
48-92
48*02
47-11
9
10
11
12
13
'4
15
16
17
18
l 9
20
21
22
23
o
1
2
3
4
5
6
7
8
9
10
11
12
13
15
16
17
18
19
20
21
22
23
Bight
Ascension.
Var.
in i©-.
Declination.
Var.
inxo".
Satubday II.
h m a
53116-45
53327*39
5 35 38-54
53749-89
540 1-44
542 13*19
54425-14
54637*29
54849*6
551 2-H
55314-89
55527-80
55740-90
55954*18
6 2 7-65
6 421-30
6 635-13
6 849-13
6 11
17*66
6 13
6 15 32-17
6 1746*85
620 1*70
622 16-71
a
21*806
21*841
21*875
21*908
21*94*
21*975
22*008
22*041
22*073
22*105
22*137
22*168
22*198
22-229
22*260
22*290
22*319
22*348
22*378
22*405
"'433
22*461
22-488
22*514
Sunday 12.
S.183814
1842 54
1847286
185157-5
18 5620-8
19 038-4
19 450-4
19 856
191257-2
19 1651*9
19 2040*8
192423-9
1928 I'O
1931 32*2
193457-4
19 38 i6*6
1941 29*8
194436-8
194737*8
19 50 32*6
19 53 21*2
1956 3-6
195839*8
S.20 1 9-6
62431*87
62647*19
22*540
22-566
629 2*6622*591
631 18*28
[63334-05
63549*96
638 6*02
64022'2I
642 38*53
6 44 54-99
647 II-58
64928*29
:65I45*I3
654 2*09
656 19*16
65836*35
7 053*64
7 3"'°4
7 528-54
7 7 46-I5
710 3*85
7 12 21*65
7H39-53
71657-50
7 I 9 I 5'55
S.20
22*616
22*640
22*664
22*688
22*709
22*732
22*754
22*775
22-796
22*817
22*836
22*855
22*873
22*891
22*908
22*926
22-943
22*958
22*973
22*988
23*002
3 33
5 50*4
8 i*3
S 1
38
20
20
20 10
20 12
201355
20 1540*5
20 17 19-2
20 18 51 -3
20 20 i6*8
2021 35-8
202248*1
2023 53-9
202453*0
5
202545 -
20 26 31-3
20 27 10*4
20 2742*8
2028 8*4
20 28 27*3
2028 39*4
202844*8
202843*4
202835
23'oi6S.20 28 20
47- n
46-19
45*28
44*35
43*4'
4*'47
41*5*
40-57
39* 60
3863
37-67
36*68
35*69
34*70
33*70
32*70
31-68
30-67
29*65
28*62
27*58
26*55
25*50
24- 45
23-40
22*34
21*28
20*21
I9-I3
18*06
16*98
15-90
14*80
13*71
12*61
11-51
10*41
9-30
8-19
7*08
5-9-5
4-83
3*71
2*58
1*46
0*33
o*8i
i-94
3-08
Googk
Digitized by
VIII.
WOVE
MB
k£]
tt, 1882.
189
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
I
m
Right
Ascension.
Var.
in io».
Declination.
Vw.
in 10"*.
3
H
Right
Ascension.
"far.
in io".
Declination.
Var.
in xo".
Monday 13.
Wednesday 15.
fa m 8 8
r it *
b m a a
1 W *
17191555
23*016
S.2028 20*1
3-08
191015-73
23-046
S.18 2 19-81 57-13
I
1721 33*69
23*029
202758*2
4*22
I
191233*97
23-036
175633-8
58*19
2
172351-90
1726 jo-i8
23*041
202729*5
5'35
2
19 1452*16
23-026
175041-5
59*24
3
23-053
20 2b 54*0
649
3
19 17 10*28
23-015
174442-9
60*29
4
172828-54
23-065
2026 II "6
7*64
4
191928-34
23*004
1738 380
61-341
5
173046-96
23-075
20 25 22*3
8-79
5
19 21 46*33
I924 4*2§
22*993
17 32 26-8
62*38
6
17 33 5*44
23-085
202426-1
9*93
6
22*982
1726 9-5
63*40
1
173523-98
23-095
2023 23*1
11*08
7
192622'H
22*970
17 1946-0
64-43;
173742-58
23-104
20 22 13*2
202056-4
12*23
8
I928 39*90
22*958
171316-3
17 640-5
65*46
9
1740 1*23
23-113
I3-38
9
193057*61
22*946
66*48,
10
1742 19-93
23-121
20 IO 32-7
20 15 2*2
1452
10
I9 33I5-25
22*934
165958-6
67*48,
11
1744 38*68
23*128
15-67
11
I9 35 32*82
22*922
165310-7
68-48]
12
174657-46
*3'i34
20 1624*7
16-82
12
193750*31
22*908
164616-8
69*48:
1*3
1749 16-29
23-141
20 1440-3
17-97
13
1940 7* 7 2
22*896
1639 16-9
70*47
H
1751 35-15
23-147
20 12 49*1
19-12
H
194225*06
22*883
l6 32 II'2
71*45
7* "44
*5
175354*05
23*152
20 1050-9
20 845*8
20-27
*5
194442-32
22*870
162459-5
16
175612-97
23-156
21-42
16
194659-5022-857
161741-9
73'4«
17
175831-02
18 050-89
23*160
30 633-9
22*56
IS
I949 10*6022-843
16 io 18-6
74*37,
18
23-163
20 415*1
23*71
19 51 33*62
22*830
16 249-5
75*33'
*9
18 3 9-88
18 528-88
23*166
20 149*4
24-86
*9
I9 53 50-56
I956 7-42
22*817
155514-6
7629
20
23*168
1959 io-8
*»9 5-5 37*3
26*01
20
22*803
15 47 34*0
77-24
21
18 7 47*9°
23*171
27-15
21
1958 H" f 9
20 040-88
22-788
*5 3947'7
7 8*i8 |
22
18 10 6*93
23-172
195351-0
28-29
22
22-775
153155-9
79-10
23
18 12 25-97
23*173
s.19 5057-8
29-44
23
20 257-49
22*761
S.I5 23 58-5 80*03
TUESDA
Y 14.
Thubsdj
ly 16.
i8i4 45-oi;23-i73
S. 19 47 57* 7, 30-58
20 5 14-01
22-747
S.I5I5 55-5
80-95
I
18 17 4-0523-173
194450-8
31*72
I
20 7 30-45
22*733
15 747*1
81-86
2
18 i9 23-09'23'i73
194137-1
32-85
2
20 946*80
22*718
14 59 33*2
82-76
3
l8 21 42'I2|23'I72
19 38 16-6
33-98
3
2012 3*07
22*704
14 51 14-0
83-65'
4
1824 I' I5|»3'i70
19 34 49*3
35-12
4
20 14 19*25
22 * 690
144249*4
84 # 55l
5
18 26 20" 1623-168
1931 15-1
36*26
5
20 16 35*35
22*677
143419*4
85-43 1
6
18 28 39*1623*166
192734-2
37*38
6
20 18 51*37
22-663
142544*2
86-30
1
18 30 58' 15
23*162
192346*6
38-50
l
2021 7*30
22-648
14 17 5*8
8 7 -i6 t
18 33 17*11
23*158
19 19 52*2
39' 6 3
2023 23*15
2025 38*91
22*634
14 8 18-3
88*02
9
183536-05
23*154
1915510
40-75
9
22*620
135927*6
88-88
10
183754-96
23*150
19 1143*2
41-87
10
202754*59
22-607
135031-8
89-72]
11
1840 13*85
23-146
19 728*6
42-98
11
2030 10*19
22-593
1341 31*0
90*55
12
1842 32-71
23-140
19 3 7'4
185839-5
44*09
12
20 32 25*71
22*580
13 32 25*2
91-37
13
184451-53
23*134
45-20
13
203441*15
22*566
132314*5
92*18;
14
1847 10*32
23*128
1854 5-0
46-30
H
20 36 56-50
22553
131359-0
92-99!
15
1849 29-07
23-122
184923-9
184436-2
47*40
15
20 39 11*78
22-539
13 4 38^; 93'8o
16
185147-78
23*115
48*50
16
2041 26-97
22*526
12 55 l 3'4\ 94*59
17
1854 6-45
23*108
183941*9
49 '60
l l
204342*09
22*513
"45 43'5j 95*37
12 36 8-9 96-15
18
18 5625-07
23*100
18 3441*0
50*68
18
204557-13
22*500
19
18 5843-6523-092
182933-7
51-77
19
2048 12-09
22*487
12 2629-7
96*92
20
19 I 2' 17 23-083
1824 19*8
18 1859-4
18 13 32-6
52-86
20
20 50 26 '97
22*474
12 1645-9
97*68
21
19 320-64123-074
53-93
21
20 5241*78
22*462
12 657-6
98*43
22
19 5 39' o6 i a 3'o65
55'oo
22
205456-52
22*450
11 57 4'8
99*17
*3
19 757-4223-056
« '5 7 59*4
56*07
*3
2057 ii-i8
22-438
11 47 7-6
99-90
H
l 9 10 15* 73 a 3-o46
S.18 2 19-8
57-13
24
205925-7722-426
S.n 37 6-0100*63 1
Digitized by
GoogE
9°
NOVEMBER, 1882.
IX.
MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
i
Right
Ascension,
Var.
in io".
Declination.
Var.
in 10-.
1
Right
Ascension.
Var.
in id*.
Declination.
Tar.
into**.
Fsidat 17.
SUHDAY
19.
h m a a
/ * »
h m a a
/ » *
20 59 25 '77122 '426
S. 11 37 6*o
100*63
2246 17*7022*250
S. 22926-0
113*56
I
21 140*29
22*414
1127 °" 1
101*33
I
22 48 31*22
12*257
2 17 4*0
123*76
2
21 3 54'74
21 6 9*12
22*403
ii 1650*0
102-03
2
22 5044*78
22*264
2 440*9
123*96
3
22*392
11 635*7
102-73
3
22 52 58*39
11*272
1 52 165
124*15
4
21 823*44
22*381
1056 17*2
103-42
4
22 55 12*04
22*279
13951*1
124*33
5
21 IO 37*69
22*370
104554*7
104*09
5
225725*74
22*2*8
1 2724*6
124*49
6
21 12 51*88
22*360
1035 28*1
104*76
6
225939*50
22*298
1 14 S7'*
124*63
7
21 15 6'OI
22*350
102457*6
105-42
7
23 153*32
22*308
1 229*0
124-77
8
21 17 20*o8
22*340
10 1423*1
106-07
8
23 4 7*19
23 621*13
22*3X8
050 0*0
124*89
9
21 I9 34-09
22*330
10 3 44*8
106-71
9
22'329
03730*3
125*01
10
21 21 48*04
22*321
953 ;•§
107*33
10
23 835*14
12*340
02459*9
125-11
11
2124 i'94
22*312
942 16*8
107*95
11
23 1049*21
22*351
S. 12 29*0
125*20
12
21 26 15-70
21 28 29*58
22*303
93127*2
108-57
12
2313 3*35
22*363
N. 2*5
125*28
13
22*295
920 34*0
109*16
'3
231517*57
22*376
01234*3
125*33
H
213043*33
22*287
9 9 37*3
85837*0
109-75
H
23 17 31*86
22*388
025 6*5
125*39
:i
2I32 57*02
21 35 io*68
22*279
1x0*33
15
23 1946*23
22*402
03739-0
125-42
22*272
8473r3
8 3626*2
110*90
16
23 22 0*68
22'4l6
050 n*6
125-44
17
213724*29
22*265
ixi'47
\i
23 24 15*22
22*431
1 244*3
i*5*46
18
21 39 37*86
22*258
82515*7
112*02
23 2629*85
21*446
11517*1
"5*47
19
21415KJ9
2144 4-88
21 46 18*34
22*252
8 14 2*0
1x2*55
'9
232844-57
22*462
12749*9
125-45
20
22*246
8 245*1
II3*08
20
233059*39
22*477
I 40 22*5
115-42
21
22*241
75125*1
II3*60
21
233314*30
«*493
15254*9
125-38
22
214831*77
22*236
740 1*9
IX4-I2
22
233529*31
22*5x0
2 5 27*1 125-33
23 21 5045*17,22-231
S. 7 28 35*7
II4*6l
23
23 37 44'4-5 22*5*8
N. 2 17 58-9715*17
Satubdj
IT l8.
HoffDA
Y 20.
0;2I 52 58'5422'127
S. 717 6*6
II5-09
233959*64122*546
N. 2 30 30*3jx25'i9
I
21 55 11 '8922*222
7 5 34-6"
1X5*58
1
2342 14*97 11*563
243 1*2
125M0
2
21 57 25*2122*218
65359*7
IX6*05
2
234430*4022-582
* 55 3 I- 5
124-99
3
215938*5122*215
64222*0
Il6*5I
3
23 4645*9522*602
3 8 i*i
124*87
4
22 1 51*7922*213
22 4 5*0022*210
6 3041*6
116*95
4
2349 1*62*22*622
3 20 30*0
"4*74
5
61858-6
117*38
5
23 51 17*41 22*642
3 32 58*0
124*59
6 ! 22 6 l8'3i;22'208
6 713*0
xi7*8i
6
23 53 33*32 22*662
345 2 5-i
124*43
I
22 831*5622*207
5 5S-H-9
118*23
7
2 3 5S 49-35i**'682
3 57 5£-*
124*27
22 10 44* 80*22*206
54334*3.118*63
8
2 3 5 8 5 "5° "'703
4 10 16*3
124*08
9
22 12 58*0322*205
5 31 41 '4 119*02
9
021*7922*716
42240*2x23*88
10
22 15 11*2022-205
51946*1
119*40
10
238*2122-748
4 35 2*9123*67
11
22 I7 24*49 , 22'205
5 748-6119*77
11
454*7622*770
44724*2
123*44
12
22 I9 37*72122*206
45548*8120*13
12
711*45
22*793
45944-2
113*11
*3
22 21 50*96J22*207
44347*0
120*48
13
928*28
22*817
5 12 2*7
122-95
H
22 24 4*20*22*2o8
43I43-I
120*82
14
11 45*25
22*840
5 24 19*6 122*68
15
22 26 I7'45'22*2I0
41937*2
121*14
15
14 2*3622*864
16 19'02'22*888
5 36 34*9|i22- 4 o
16
22 28 30*7222*2I3
4 7*9'4
121*46
16
5 48 48*4'i22-xo
17
22 30 44*OlJ22*2l6
35519-7
X2i*76
17
O 18 37*02J22*9I3
6 I 0'l!l2I-8o
18
22 32 57*31 22*2X9
22 35 10*6422*223
343 8*3
122*05
18
02054*5822*939
6 13 io'0,i2x-48
19
33055*1
122*33
19
23 12 '29*22*964
625 17*8121*13
20
22 37 23*9922*228
31840*3
122 '60
20
25 30'15'22*990
63723*6120*79
21
223937*3722*233
3 623*9
122*86
21
02748*1723-017
649 27*3 120*43
22
22 41 50*7822*238
254 6*o
123*10
22
O3O 6*3523*043
32 24*6923*070
7 128*7
120*04
23
22 44 4'22 , 22'243
24146*7
123-33
23
71327*8
119*65
24
22 46 17*7022*250
S. 22926*0123*56
24
o34 43" I 9 1 2 3-°97
N. 72524-5
119*24
Digitized by '
O
X.
NOVEMBER, 1882.
19]
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Right
Ascension.
Yar.
in 10".
Declination.
in xo".
1
Right
Ascension.
Yar.
inio«.
Declination.
Yar.
in xo".
Tuesday 21.
Thubsday 23.
h, m g s
/ w *
h m 8 ■
/ it *
O
03443-19
23-097
N. 7*5«H*5
119*24
229 0*75
24*518
N.I5 44 28-2
83-53
I
037 1-85
23*124
73718*7
118*83
I
23127-94
24*544
155246*2
82-47
2
O 3920*68
*3**5*
74910*4
118-39
2
23355-28
2 3622*77
24*569
16 057-9
81*41
3
041 39*68
04358-84
23*180
8 059*4
IT7*94
3
-H*594
16 9 3*i
80*33
4
23*208
81245-7
117*48
4
2 38 50*41
24*618
1617 i*8
79-24
5
04618*18
23-237
82429*2
117*00
5
24I 18*19
24*642
162454*0
78-14
6
04837-69
23*266
836 9*7
116*51
6
24346*12
24*667
163239*5
164018*3
77*03
7
05057-37
23*295
8 47 47*3
85921*8
ix6'oi
1
246 I4'I9
24*690
75*9'
8
05317-23
05537-26
*3*3*4
115*49
24842*40
24*712
164750-4
74*78
9
*3*353
9 1053*2
114*96
9
2 51 10-74
*4*734
165515-6
73*63
10
©57 57*47
23-383
922 21*3
114*40
10
25339*21
256 7*81
24*756
17 234-0
72*48
11
1 017*86
23*413
93346-0
113*84
11
*4*777
17 945*4
7^*33
12
1 238-43
1 4 59' 18
»3*443
9 45 7*4
113*27
IZ
25836-53
*4*797
171649*9
70*16
13
«3*473
95625*3
112*68
13
3 « 5*37
24*817
17*347*3
68*98
H
1 720*11
23*503
10 739-5
101850-1
112-07
14
3 3 3433
24* 836
173037-6
67*79
15
1 941-22
*3'534
111*46
*5
3 * 3-40
*4*8S3
173720*8
66- 60
16
1 12 2*52
23 565
102957-0
110*83
16
3 832-57
3 11 1-85
24-871
174356-8
65*39
17
1 1424*00
»3'59*S
1041 0*0
1 10' 18
\l
24-888
175025-5
64-18
18
1 1645-67
23*627
105159-1
109-52
31331-23
24*905
175646-9
18 3 1*0
62*96
l 9
1 19 7-52
»3**57
11 254-2
108-84
19
3 16 0-71
24*921
61-73
20
1 21 29*55
23-688
111345-2
108*15
20
3 18 30*28
»4*935
18 9 7*7
60-50
21
12351-77
*3'7i9
11 24 32*0
107*45
21
32059-93
24-949
18 15 7*o
59*26
22
1 20 14-18
«3*75©
113514-6
106 * 74
22
3 23 29*67
24*962
182058*8
58-01
23
i 28 36-77
23-781
N.ii45 5**9
106*02
*3
32559*48
H*975
N.182643'1
56-76
Wednesi
>AY 11.
Peida 1
r 24.
13059-55
23*812
N.11 5626-8
105*28
32829-37
24*987
N.18 32 19*9
55*50
1
1 33 22*52
23*843
12 656-2
104-52
1
33059-33
24*998
183749*1
54**3
2
13545-67
138 9*01
23*874
12 1721-0
103-74
2
3 33 29*35
25*008
1845 io*6
184824*5
5**95
3
23*905
122741*1
102*96
3
3 35 59*43
33829*56
25*017
51*67
4
14032-53
23*936
123756*5
1248 7-0
102*16
4
25*026
185330*6
50-38
5
142 56-24
23*967
101*35
5
3 40 59*74
25*034
185829*0
49-09
6
145 20-14
23*998
12 58 I2 # 7
100-53
6
34329-97
346 0-23
25*041
19 319*7
47-80
2
14744-22
24*028
13 813-4
99*69
1
25-047
19 8 2*6
46-50
150 8-48
24*059
13 18 9-0
98*84
34830*53
25*052
19 12 37-7
45*19
9
15232-93
24*089
132759*5
97*98
9
351 0-85
25*056
19 17 49
43*88
10
154S7'55
24*119
133744-8
97*ii
10
35331-20
356 1-57
25*060
1921 24*2
192535-6
42*56
11
1 5722-36
24*150
134724*8
96*22
11
25*063
41*24
12
159 47*35
24-180
135659-4
9S-3 1
12
35831-95
25*064
192939-1
39*92
*3
2 2 12*52
24*210
14 628-5
94*39
13
4 * **34
25*065
19 33 34*7
38*60
14
2 437*^7
24239
14 15 52- 1
93*47
H
4 3 3**73
4 6 3-12
25*065
193722-3
37'*7
IS
2 7 3-39
24*268
1425 10*2
92*53
15
25*064
1941 1-9
35*93
16
2 929*09
24*297
143422-5
91*58
16
4 833-50
25*062
i944 33'5
34* 60
\i
2 11 54*96
24*326
144329-1
90*61
17
411 3-86
25*058
194757-1
33-27
2 14 21 -oo
24*354
1452 29*8
89-63
18
41334-20
4 16 4-52
25*055
1951 12-7
3i*93
*9
2 1647*21
24*383
15 124-7
88-65
*9
25*051
195420*3
30-60
20
2 I9I3*59
24*411
15 10 13*6
151856-5
87*65
20
4 1834*81
25*045
195719-9
29*26
21
2 21 40*14
24*438
86*63
21
421 5-06
25-037
20 011-4
27*91
22
2 24 6*85
24*465
152733-2
85*61
22
42335*26
426 5-41
25*029
20 254-8
26*57
*3
2 26 33*72
24*492
1536 3-8
84-58
23
25-021
20 530*2
25*23
,H
2 29 0-75
24*518
N.I54428-2
83*53
24
42835*51
25*012
N.20 757*5
23-88
Digitized by
Got
o
92
NOVEMBER, 1882.
XI.
MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
1
Bight
Ascension.
Vsx.
inio"".
Declination.
Var.
inio».
J
Right
Ascension.
Vwr.
in io*".
Declination.
in io».
Satubbay 25.
Monday 27.
Th m ■ ft
/ »
n
h m ■ s
# * *
42835-51
25*012
N.20 7 57*5
23*88
62550-88
628 I2-OI
23*545
N.19 32 50*0
36*49
I
43 1 5*55
45*001
20 10 16 *8
22*54
I
23*498
1929 78
37-58
2
4 33 35*5*
24-989
20 12 28*0
21*19
2
6 30 32-85
23-450
19 25 19*0
3867
3
436 5-42
M'977
20 1431*1
19*85
3
63253-41
23*402
19 21 23-7
39*75
4
43835-25
24-964
20 16 26*2
18-51
4
63513-67
*3*353
19 I722-0
40*81
5
441 4-99
24-949
20 18 13-2
17-17
5
63733-65
23-306
19 IJ I4'0
19 859-6
41*87
6
44334-64
*4'934
20 1952*2
15-83
6
539 53*34
23-257
42*92
7
446 4-20
24*918
2021 23*2
14-49
7
642 12-73
23*207
19 439-0
43 '95
8
44833*66
24*902
202246*1
13-15
8
644 31*82
646,50*61
23-157
19 12*2
185539-2
44-98
9
451 3-02
24-883
20 24 I'O
11*82
9
23*107
46-00
10
45332-26
24*864
2025 7-9
10*48
10
649 9-10
23-057
185I 0'2
47* 01
11
456 1-39
24-844
2026 6-8
9-15
11
651 27*29
23*007
184615-1
48*01
12
45830-39
24-823
202657*7
7*82
12
65345-18
22-956
184.I 24*1
48-99
x 3
5 °59**7
5 328-01
24*802
202740-6
6-49
13
656 2-76
22-904
l8 36 27*2
49'98
H
24*778
2028 15-6
5*17
H
658 20-03
22-852
l8 31 24'4
50*95
15
5 5 5 6 ' 61
*4'755
202842-7
3*85
'5
7 036-99
22*802
1826 I5-8
51*91
16
5 825-07
*4'73i
2029 1-8
2*53
16
7 *53* 6 5
22-751
1821 1-5
52-86
x 7
5 i°53'38
24-706
2029 13*1
2029 18-5
1*22
*7
7 5 IO'OO
22-698
181541-5
53-8o
18
51321-54
24*680
0-08
18
7 726-03
22*646
18 10 15*9
54*73
l 9
5 ^ 49*54
24-653
2020 12 'i
2028 59-9
1-38
l 9
7 941*75
22*594
18 444*8
55*65
20
5 1817-38
24-625
268
20
7 11 57-16
22-542
1759 8*i
56*56
21
52045-04
24-596
202839-9 3-98
21
7 14 12-26
22*490
175326-1
57*45
22
523 12-53
24-567
2028 12-2, 5-27
22
7 1627-04
22-438
174738-7
58-35
23
52539-84
24-536
N.20 27 36*7; 6-56
23
71841-51
22-386
N.174145'9
59**3
SUJTDA'
I 26.
TUESDA
Y 28.
528 6-96
53033-89
24-504
N.20 26 53-5
7-83
72055-67
"'333
N.17 35 47'9
60*10
I
24-472
2026 2-7
9-11
1
723 9*51
22*280
172944-7
60*96
2
5 33 °* 6 3
24-440
2025 4-2
10-38
2
72523-03
22*228
172336-4
61*80'
3
53527-17
24*406
2023 58-2
11-64
3
72736*24
22*175
17 1723-1
62*64'
4
5 37 53*5©
24-372
202244-5
12*90
4
72949-13
22*123
1711 4-7
63*48
5
54019-63
*4*337
2021 23-4
14-14
5
732 1-71
22*070
17 44i*3
64*30
6
5 4*45*54
24*300
20 19 54*8
2018 18-8
15-38
6
7 34 13*97
22*018
1658 13*1
65-10
1
545 "**3
24*263
16-62
1
73625-92
21-965
165140-1
65*90
54736-70
24-227
201635-3
17-86
738 37*55
21*913
1645 2-3
66*69
9
5 5° 1 '95
24-188
201444-5
19-08
9
74048-87
74259-88
21*861
1638 19*8
67*48
10
5 52 26-96
24-149
20 1246-4
20*29
10
21-808
16 31 32-6
68*25
11
5 54 5 1 " 74
24-110
20 1041-0
21-50
11
74510-57
21*756
162440-8
69*01
12
5 57 16-28
24*070
20 828-4
22-70
12
74720-95
21*704
161744*5
69*76
x 3
55940-58
24*029/
20 6 8*6
23-90
•3
74931-02
21-653
161043-7
16 3385
70*50
H
6 2 4-63
23-988
20 341-6
25-08
H
7 51 40*78 21*601
71*23
15
6 428-44
23*947
20 1 7-6
26-26
15
75350-23
21*549
15 5629-0
71*94
16
6 651*99
23-903
19 58 26-5
»7"43
16
7 55 59*37
758 8*21
21-498
154915-2
72*66
\i
6 9 15-28
23*861
195538-4
28-59
\i
21*447
I54I57* 1
73*3-5
6 11 38-32
23*818
195243-4
29-75
8 016-74
8 224*96
21-396
I5 34 34-9 74-05
19
6 14 1-09
23*773
194941-4
1946 32-6
30-90
19
ai'345
1527 *'5 74-74
20
6 16 23-59
23*728
32-03
20
8 432*88
21-294
15 19 38*0, 75* 4I
21
6 1845*82
23-683
1943 170
33-16
21
8 640-49
21*243
15 12 3 -6. 76*07
22
621 7-78
23-638
19 39 54*7
34-28
22
8 847-80
21*193
15 425*2176-72
23
623 29-47
23-592
193625-7
35*39
23 8 1054*81
21-144
145642*9 77-37
24
625 50-88
*3'545
N.19 32 50-0
36-49
24|8 13 1-53 21-095
N.1448 56*8 78-00
Digitized by
Google
XII
•
J\<JVJi
sinn
iJSJ
It, I88Z.
19:
MEAN TIME. 1
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
Right
Ascension.
Tar.
inio".
Declination.
Var.
in io"*V
3
W
Right
Ascension.
Var.
in io".
Declination.
Var.
in ic".
WZDHSSDAY 29.
Thuesday 30.
b m * 1
1 w n
h m 1 ■
Of* *
O
813 I'S3
21-095
N.I448 56-8
78-00
9 2 l8*II
20*006
N.11 2541*1
90*54
I
S*5 7*95
21-045
1441 6*9
78*62
I
9 418*02
19-965
II 16 36*6
90*96
2
8 17 14*07
20*995
I4 33ir3
1425 i6'o
79-24
2
9 617*69
19-926
II 729-6
91-37
3
8 19 19/89
20*947
79^5
3
9 8 17-13
19*887
105820-1
91*78
4
821 25*43
82330-68
20*899
141715*1
80*45
4
9 10 16*33
19*847
1049 8-392*17
5
20-851
14 9 10-6
81-03
5
9 12 15*29
19*808
10 39 54- 1)92*56
6
82535-64
20-803
14 1 2*7
8i-6i
6
91414*03
9 16 12*54
19-771
103037-6 92*93,
7
82740-31
20-755
135251*3
82*19
s
19*733
1021 18*9
93*30'
8
8 29 44 • 70
20-708
i3 44 3 6 "4
82-75
9 18 10*83
19*697
10 11 58-0
93*67
9
83148-80
2o*66i
13 36 18*3
83-29
9
920 8*90
19*660
10 234*9
94*03
10
83352-63
20*615
132756*9
83*84
10
922 6-75
19-624
953 9*7
94*37
11
83556-18
20-568
13 T9 32-2
84*37
11
924 4*39
19-588
9 43 42*5
94*71
12
83759-45
20*522
13 11 4-4
84*89
12
926 i*8i
-9'553
93413-2
95*04
13
840 2*45
842 5-18
20-477
13 233-5
85-41
13
92759*03
19-519
9 2442*0
95*37
H
20*432
125359-5
85-92
14
9 29 56-04
9 31 52*86
19-486
915 8-8j 95*69
15
844 7-64
20-388
1245 22-4
86*43
:i
"9*453
9 533-7,96-01
85556-796*31
16
846 9-84
20-344
12 3642*4
86-92
9 33 49*47
19-419
17
848 11-77
20*300
122759*4
87*40
:i
93545*89
19-387
846 18-0 96*60
18
85013-44
20-257
12 19 13-6
87*87
93742-11
19*355
83637-5 96-89
19
852 14*85
20*213
12 1025-0
88-34
19
93938*15
19-324
82655-3
97*1,8
20
8 54 16-00
20-171
12 133*5
88* 80
20
94134*00
19-293
81711-497*46
21
8 56 16*90
20*129
115239-4
89-24
21
943 29*66
19-263
8 725-897*73
22
85817-55
20*088
114342-6
89-69
22
9452515
I9'*33
75738-6
97*99
23
9 ° i7"95
9 2 18*11
20-047
113443-1
90*13
23
94720*46
19-203
7 47 49-9
98*24
24
20' 006
N.n 25 41 -1
90*54
24
9 49 J SS9
19-174
N. 7 37 59*7
98*49
PHASES OP THE MOON.
Nov. 2
[ Last Quarter --------
h m
6 57-0 * -
II 19*6
10
f
> New Moon ---------
I ' 7
J
) First Quarter --------
20 41*5
24
c
) Full Moon
14 2*5
Nov. s 1
[ Apogee
h
- - 18
21 1 4
Perigee ---•----.
- - 19
Digitized by
Google
94
NOVEMBER, 1882.
XIII.
MEAN TIME
•
LUNAR DISTANCES.
Star "■ Name
r.L.
P.L.
P.L.
P.I*
1
and
Noon.
of
in".
of
VI*.
of
IXK
of
Position.
diff.
diff.
diff.
diff.
01*
O 1 H
/ *
1 ti
I
a Arietis W.
79 l 7 42
2867
80 50 43
2881
82 23 26
2896
83 55 50
2909
Saturn W.
60 24 3
2794
61 58 39
2809
63 32 56
2824
65 6 53
50 35 46
2837
Aldebaran W.
45 55 34
2835
47 29 16
2849
49 2 40
2863
2877
Jupiter W.
23 29 20
2838
25 2 59
2848
20 36 24
2859
28 9 36
2870
Regulus E.
34 17 18
2888
32 44 44
2909
31 12 37
2931
29 40 58
2954
Sun E.
104 39 36
3^77
103 13
3193
eoi 46 43
3209
100 20 45
3225
2
a Arietis W.
9* 33 35
2974
93 4 20
2986
94 34 5°
2998
96 5 6
3009
Saturn W.
72 52 23
58 17 8
2901
74 *4 4i
2913
75 56 44
2924
77 28 32
2934
Aldebaran W.
2939
59 48 38
2950
61 19 54
2961
62 50 55
2971
Jupiter W.
35 5i 57
2926
37 23 43
2936
38 55 16
2946
40 26 37
2956
Pollux W.
19 9 24
3810
20 24 16
3704
21 40 59
3619
22 59 13
355o
Son E.
93 15 17
3296
91 51
3308
90 26 58
33*°
89 3 10
3332
3
Saturn W.
85 4 26
2981
86 35 2
2989
88 5 29
2997
89 35 46
3004
Aldebaran W.
70 22 59
3017
71 52 51
3025
73 22 33
3033
74 52 5 3039
Jupiter W.
48 25
2998
49 3° 4° 3°°6
51 45
3013
52 30 41
3020
Pollux W.
29 45 11
3357
31 8 16 3336
32 31 46
3318
33 55 3^3303
Sun E.
82 7 22
3383
80 44 46
3393
79 22 21
3401
78 51 3408
4
Saturn W.
97 5 I*
3032
98 34 45
3036
[oo 4 13
3040
101 33 36.3043
Aldebaran W.
82 17 50
3067
83 46 40 3072
85 15 24
62 56 59
3076
86 44 3! 3078
Jupiter W.
59 58 32
3046
61 27 48
3050
3054
64 26 5! 3056
Pollux W.
40 58 25:3254
42 23 30
3247
43 48 43
3241
45 H 3 3*36
Sun E.
71 10 46; 3440
69 49 14
3445
68 27 48
3448
67 6 261 3452-
5
Aldebaran W.
94 6 29
3089
95 34 52
3091
97 3 13
3091
98 3 1 34' 3091
Jupiter W.
71 50 52
3065
73 '9 44
3066
74 48 35
3066
76 17 26:3066
Pollux W.
52 22 9
3214
53 48 1
3209
55 13 59
3205
56 40 2; 3201
Son E.
60 20 29
3464
58 59 25
3464
57 38 21
3465
56 17 18 3465
6
Jupiter W.
83 41 54
3060
SS 10 53
3057
86 39 55
3054
88 9 1 3051
Pollux W.
63 51 31
26 49 37
3^79
65 18 5
3'75
66 44 44
3170
68 11 29,3164
Regulus W.
3177
28 16 13
3166
29 43 3
3'55
31 10 6J3145
Sun E.
49 3 1 53
3459
48 10 43
3456
46 49 30 3454
45 28 14
345i
7
Jupiter W.
95 35 35
3031
97 5 9
3026
98 34 49 3021
100 '4 36
3016
Pollux W.
75 26 48
3138
76 54 12J3133
78 21 42
3126
79 49 20 3120
Regulus W.
38 28 8
3102
39 5 6 15,3094
41 24 32
3087
42 52 58,3078
Sun E.
38 40 52
3430
37 x 9 9 3424
35 57 20
3419
34 35 25' 3413
1
S
Pollux W.
87 9 23
3088
88 37 47 3082
90 6 19
3075
91 34 59 3069.
Regulus W.
50 17 35
3039
51 47 o! 3 o 3 i
53 * 6 34
3023
54 46 18 3014
Sun E.
27 44 6
3381
26 21 28, 3373
24 58 41
3366
23 35 4 6 3359
12
Sun W.
17 41 3
3103
19 9 9 3093
20 37 27
3085
22 5 55
3075
FomalbautE.
85 29 39
3226
84 4 1
3220
82 38 15
3215
8l 12 24
3211
a Pegasi E.
102 50 49
2901
£01 l8 32
2890
99 46 3
2881
98 13 20
2872
13
Sun W.
29 31 7
3029
31 44
3021
32 30 31
301 1
34 3°
3002
FomalhautE.
74 2 11
3203
72 36 5,3203
7i 9 59
87 18 52
3205
69 43 56
3208
a Pegasi E.
90 26 48
2827
88 52 55 2819
2811
85 44 38
2804
14
Sun W.
4i 33 13
2957
43 4 19 2948
44 35 37
2939
46 7 7
2930
ForaalhautE.
62 35 6 3244
61 9 49 3256
59 44 46 3270 58 19 59 3286
Digitized by
Google
XIV.
NOVEMBER, 1882.
195
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L.
P.L.
fr
and
Midnight.
of
XV*.
of
XVIIl*.
of
XXI*
of
Q
Position.
diff.
diff.
diff.
diff.
f »
09*
O 1 H
t n
I
a. Arietis W.
85 27 57
2923
86 59 46
2937
88 31 18
2950
90 2 34
2962
.
Saturn W.
66 40 33
2850
68 13 56
2864
69 47 1
2877
71 19 50
2889
Aldebaran W.
52 8 35
2890
53 4i 7
2902
55 13 23
2915
56 45 23
2927
Japiter W.
20 42 33
28 9 47
2882
31 15 15
2893
32 47 43
2904
34 19 57
2915
Regulus E.
2978
26 39 7
3003
25 8 57
3030
23 39 22
3059
Sun E.
98 55 5
3240
97 29 43
3254
96 4 38
3268
94 39 49
3*82
2
a Arietis W.
97 35 8
3019
99 4 57
80 31 30
3030
100 34 33
3039
102 3 57
3049
Saturn W.
79 8
*945
*954
82 2 40
2964
83 33 38
2972
Aldebaran W.
64 21 44
2981
65 52 20
2991
67 22 44
3000
68 52 57
3009
Jupiter W.
4i 57 45
2965
' 43 28 42
2974
44 59 27
2983
46 30 1
2991
Pollux W.
24 18 42
3495
25 39 12
3450
27 32
34i3
28 22 34
3382
Son E.
87 39 35
3344
86 16 14
3354
84 53 5
3365
83 3° 8 3374
3
Saturn W.
9J 5 54
3010
92 35 55
3017
94 5 47
3022
95 35 33 1 3027
Aldebaran W.
76 21 29
3046
77 50 45
3052
79 *9 53
3057
80 48 55 3063
Jupiter W.
54 29
3026
55 30 10
3031
56 59 44
38 8 42
3037
58 29 ill 3042
Pollux W.
35 19 44
3290
3 6 44 7
3280
3270
39 33 29 3262
Sun E.
76 37 58
3415
75 15 59
3422
73 54 8
3428
72 32 23,3435
4
Saturn W.
103 2 55
88 12 39
65 55 8
3046
104 32 11
3049
106 1 23
3051
107 30 33 3052
Aldebaran W.
3082
89 41 10
3084
91 9 39
3087
92 38 5 3038
Jupiter W.
3059
67 24 7
3061
68 53 4
3063
70 21 59 3064
PoUux W.
46 39 29
3232
48 5 3226
49 30 38
3222
50 56 21 3218
Sun E.
65 45 8
3456
64 23 54 3459
63 2 44
3460
6l 41 35! 3462
5
Aldebaran W.
99 59 55
77 46 17
3091
101 28 16 3090
102 56 38
3089
IO4 25 1,3087
Jupiter W.
3065
79 15 9J3064
80 44 2
3063
82 12 57 3061
Pollux W.
58 6 10 3198
59 32 22J3193
60 58 40
3188
62 25 3 3184
Sun E.
54 56 i5
3464
53 35 ",3464
52 14 7
3463
50 53 I' 3461
6
Jupiter W.
89 38 n
3048
91 7 25' 3044
92 36 43
3040
94 6 6 3035
PoUux W.
69 38 21
3160
71 5 18 3154
72 32 22
3i49
73 59 32.3H4
Regulus W.
32 37 21
3136
34 4 47
3127
35 32 24 3119
37 ii 3110
Sun E.
44 6 55
3447
42 45 31
3443
41 24 3
3439
40 2 303434
7
Jupiter W.
101 34 29
3011
103 4 28J3005
104 34 35
2998
106 4 50 2992
Pollux W.
81 17 5
3"4
82 44 58 3108
84 12 58
3101
85 4i 7
3095;
Regulus W.
44 21 34
3070
45 50 20 3063
47 l 9 15 3055
48 48 20
3047
Sun E.
33 *3 23
3407
31 51 15' 3401
30 28 59 1 3394
29 6 36
3388
8
Pollux W.
93 3 47 3062
56 16 13 3007
94 32 44,3054
96 1 50 3047
97 3i 4
3041
Regulus W.
57 46 17 2998
59 16 32
2990
60 46 57
2981
Sun E.
22 12 43
335*
20 49 31
3344
19 26 10
3335
18 2 39
33*7
12
Sun W.
23 34 35
79 46 28
90 40 25
3066
25 3 26
3056
26 32 29
3048
28 1 42
3039
Fomalhaut E.
3207
78 20 27
3205
76 54 24! 3203
75 28 18
3202
a Pegasi E.
2863
95 7 19
2853
93 34
2844
92 29
2836
x 3
Sun W.
35 30 40
68 17 56
2993
37 1 1
2984
38 3J 34
2975
40 2 18
2966
Fomalhaut E.
3213
66 52 2
3218
65 26 14 3225
64 35
3*34
a Pegasi E.
84 10 15 2795
82 35 41
2788
81 58! 2782
79 26 6
2775
»4
Sun W.
47 38 48; 2910
49" 10 41 29x2
50 42 45 2902
52 15 1
2893
Fomalhaut E.
56 55 31' 3305 55 31 *5 33*6
54 7 43 335o
52 44 29 3377
Digitized by
o*
9 6
NOVEMBER, 1882.
XV.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L.
FX.
&
and
Noon.
of
IIP.
of
VP.
of
IX*.
of
P
Position.
diff.
diff.
diff.
diff.
1 ir
/ *
t »
, .
14
a Pegasi E.
77 5i 5
2768
76 15 55
2763
74 40 38
2756
73 5 12
2750
15
Sun W.
53 47 29
26 3 13
2884
55 20 8
2875
56 52 59
2866
58 26 2
2856
Venus W.
*}33
27 39 9
2705
29 15 42
2679
30 52 51
2655
FomalhautE.
51 21 46
3408
49 59 3 8
3443
48 38 11
3483
47 l 7 27
60 18 5
3528
a Pegasi E.
65 6 24
108 8 39
2728
63 30 21
106 29 42
2725
61 54 15
2723
2721
a Arietis E.
2599
2589
104 50 32
2580
103 11 9
2570
16
Sun W.
66 14 17
2809
67 48 33
2799
69 23 1
2791
70 57 41
2782
Venus W.
39 5 5i
40 48 29
2559
40 45 43
2543
42 25 57
2527
44 6 32
2512
FomalhautE.
3860
39 34 29
3956
38 22 6
4067
37 11 32
4193
a Pegasi E.
52 16 56
2723
50 40 47
2726
49 4 42
2731
47 28 44
2738
a Arietis E.
94 5i 4
2524
93 io 25
2516
91 29 34
2507
89 48 31
2499
x 7
Sun W.
78 54 8
2733
80 30 4
2724
82 6 12
2715
83 42 32
2705
Venus W.
52 34 33
«443
54 17 7
2431
55 59 58
2417
57 43 8
2405
a Pegasi E.
39 3i 56
81 20 12
2S05
37 57 35
2828
36 23 44
2856
34 50 29
2890
a Arietis E.
2455
79 37 56
2447
77 55 28
2439
76 12 49
2431
Saturn E.
98 44 49
2382
97 49
2374
95 16 37
2365
93 32 12
2357
18
Sun W.
91 47 25
2658
93 25 2
68 8 13
2649
95 2 51
2640
96 40 52
2630
Venus W.
66 23 20
2346
*334
69 53 23
2323
71 38 49
2312
a Aquihe W.
35 35 42
67 36 44
3782
36 51 3
3658
38 8 35
64 9 4
3548
39 28 6
62 24 59
3450
a Arietis E.
2393
65 52 59
2386
2379
2373
Saturn E.
84 46 58
2313
83 1 18
2304
81 15 24
2296
79 29 19
2287
Aldebaran E.
100 41 39
*344
98 56 44
2336
97 11 37
2328
95 26 18
2318
*9
Sun W.
104 54 2
2587
106 33 15
82 16 53
2578
108 12 40
2570
109 52 16
2562
Venus W.
80 29 55
2260
2250
84 4 6
2240
85 5i 34
2231
a Aquilce W.
46 30 3
53 42 26
3090
47 58 25
3038
49 27 5i
2990
50 58 17
2945
a Arietis E.
2346
U S Z 34
68 48 32
2342
50 12 35
2339
48 27 32
2337
Saturn E.
7° 35 49
2247
2240
67 1 4
2233
65 13 25
81 16 27
2225
Aldebaran E.
86 36 36
2278
84 50 4
2270
83 3 21
2263
2256
Jupiter E.
107 47 55
2245
106 34
2237
104 13 2
2229
102 25 18
2222
20
Sun W.
ii8 12 52
2526
119 53 29
2520
121 34 14
2514
123 15 8
2509
a Aquilas W.
58 42 55
2776
60 17 55
2750
61 53 29
2726
63 29 34
38 22 20
2704
FomalhautW.
34 45 4i
4132
35 55 12
3962
37 7 30
3812
3681
a Arietis E.
39 4i 5i
56 12 33
«339
37 56 48
2344
36 11 52
2351
34 27 6
2360
Saturn E.
2192
54 23 54
2187
$2 35 7
68 43 25
89 46 16
2181
50 46 11
2176
Aldebaran E.
72 19 21
2223
70 31 27
2217
2212
66 55 15
2206
Jupiter E.
93 23 58
2188
91 35 12
2181
2176
87 57 12
2171
21
a Aquilse W.
71 36 28
2622
73 H 53
2611
74 53 33
2600
76 32 28
2591
FomalhautW.
45 7 4
3217
46 32 53
39 50 18
315*
48
3094
49 28 17
3042
Saturn E.
4i 39 5i
2157
2155
38 42
2152
36 11 2
2151
Aldebaran E.
57 52 40
78 50
2187
56 3 53
2184
54 15 2
2182
52 26 7
2x80
Jupiter E.
2149
77 15
2145
75 10 25
2143
73 20 31
2140
Pollux E.
100 13 6
2260
98 26 8
2256
96 39 4
"S3
94 51 55
2249
22
a Aquilse W.
84 49 32
2566
86 29 13
2564
88 8 57
2564
89 48 41
2566
Fomalhaut W.
57 3 45
2854
58 37 3
2828
60 10 55
2805
61 45 17
2785
a Pegasi W.
37 3 4
2576
38 42 32
2545
40 22 43
2518
42 3 32
2495
Aldebaran £.
43 21 14
2181 41 32 17 2183 39 43 24
2185
37 54 34 "89
Digitized by
Google
XT1.
JNU
VH
jMUbJ
tl, ]
[882.
<
197
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.I*.
P.L.
P.L.
P.L.
i
and
Midnight.
of
XV*.
of
xvm\
of
XXI*.
of
Position.
dift
dtft
diff.
ditX
1 *
9
t
/ *
H
a, Pegasi E.
71 29 39
*745
69 53 59
2741
68 18 13
2736
66 42 21
2732
»5
Sun W.
59 59 , J 7
2847
61 32 44
2838
63 6 23
2828
64 40 14
2819
Venus W.
32 30 32
2633
34 8 42 2613
35 47 *°
*594
37 26 23
42 3 56
2576
FomalhautE.
45 57 34
3578
44 38 3 6 3636
43 20 41
3702
3776
a Pegasi E.
58 4i 53
2719
57 5 3 8 2719
55 29 23
27x9
53 53 9
96 31 30
2720
a Arietis E.
101 31 33
2561
99 5i 45
2552
98 11 44
2543
2534
16
Son W.
72 32 33
2772
74 7 3f
2762
75 42 56
2753
77 18 26
*744
Venus W.
45 47 29
2497
47 28 46
2484
49 10 22
2470
50 52 18
2456
FomalhautE.
36 2 59
4337
34 56 40
4504
33 52 51
4697
32 51 49
4921
a Pegasi E.
45 52 54
2746
44 17 1612756
42 41 51
2769
41 6 43
83 2 16
2785
a Arietis E.
88 7 16
2490
86 25 48
2481
84 44 8 2472
2464
}1
Sun W.
85 19 6
2695
86 55 52
2686
88 32 50 2676
90 10 2
64 38 44
2668
Venus W.
59 26 36
2393
61 10 21
2380
62 54 24 2368
2357
a Pegasi E.
33 17 57
74 29 58
2931
31 46 18
2980
30 15 40J3040
28 46 17
31x2
a Arietis E.
2423
72 46 56
2415
71 3 431*407
69 20 19
2400
Saturn E.
9* +7 35
2348
90 2 45
2339
88 17 42
2330
86 32 26
2322
18
SUN W.
98 19 6
2621
99 57 32
2612
101 36 10
2604
103 15
2595
Venus W.
73 24 3 1
2301
75 10 29
2291
7 6 56 42
2280
78 43 11
2270
a Aquilae W.
40 49 26
3362
42 12 26
3283
43 3 6 57
3212
45 2 52
3148
a. Arietis E.
60 40 45
2366
58 56 22
2361
57 11 51
2355
55 27 12
2350
Saturn E.
77 43 1
2279
75 56 3i
2271
74 9 49
2263
72 22 55
88 22 56
2255
Aldebaran E.
93 40 45
23x0
9i 55 1
2301
90 9 5
2293
2286
l 9
Sun W.
in 32 3
*555
113 12
2548
1 14 52 7 2540
116 32 25
2533
Venus W.
87 39 15
2222
89 27 9
22x3
91 15 17 2205
93 3 37
2196
a Aquila W.
52 29 39
2905
54 1 5i
2869
55 34 5o
2835
57 8 33
41 26 58
2804 1
a Arietis E.
46 42 26
63 25 34
*335
44 57 17
61 37 34
*334
43 12 7
*335
2336
Saturn E.
2218
22x1
59 49 23
2205
58 1 3
74 7 6
2x98 ;
Aldebaran E.
79 29 22
2249
77 42 7
2241
75 54 4i "35
2229
Jupiter E.
100 37 23
2215
98 49 17
2208
97 1 1 2200
95 i* 34
2194
20
Sun W.
124 56 9
2503
126 37 19
2498
128 18 352493
129 50 58
69 58 21
2489
a Aquilae W.
65 6 8
2684
66 45 9
40 58 41
2666
68 20 34I2650
2635
FomaihautW.
39 39 28
3565
3462
42 19 48! 3370
43 42 39
3289
a Arietis E.
32 42 33
2372
30 58 17
2387
29 14 24 2407
27 30 59
2432
Saturn E.
i* 5 l 8
65 6 57
2172
47 7 58
63 18 32
2167
45 18 41 2163
61 30 0,2194
43 29 18
2161
Aldebaran E.
2202
2197
59 4' 23
2190
Jupiter E.
86 8
2x66
84 18 41
2x61
82 29 14:2156
80 39 40
2152
21
a Aquil® W.
78 " 36
2583
79 50 54
2577
81 30 20^2572
83 9 53
2568
Fomalhaut W.
50 57 38
*995
52 27 57
*954
53 59 7i*9i7
55 31 5
2884
Saturn E.
34 21 20
2150
32 31 37
2x49
30 41 53; 2150
28 52 10
2151
Aldebaran E.
50 37 10
2179
48 48 11
2179
46 59 12*2179
67 50 29 2136
45 10 12
2183
Jupiter E.
7i 30 33
2138
69 40 32
2137
66 24
2135
1
Pollux E.
93 4 4i
2247
91 17 24
2246
89 30 5 2245
87 42 44
2244
' Zl
a Aquilae W.
91 28 22
2568
93 8 1
2572
94 47 34* 2578
66 30 50I2738
96 26 59
2584
!
1
FomaihautW.
63 20 5
2766
64 55 17
2751
68 6 40
2727
x Pegasi W.
43 44 S*
2475
45 26 41
*459
47 8 52^444
48 51 24
2433;
1
Aldebaran E.
36 5 50
2193
34 17 12 2198
32 28 42 2205
30 40 22
2212 '
Digitized by '
O
98
NO
XE
iMbJfil
i, 1
;882.
XVII.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L.
P.L.
and
Noon.
of
III*.
of
VI".
of
IX".
of
P
Position.
diff.
diff.
diff.
dift
1 n
O 1 H
1 n
r *
22
Jupiter E.
64 10 19
2135
62 20 13
2136
60 30 9
2137
58 40 6 2138
Pollux E.
85 55 22
2245
84 8 1
2*45
82 20 41
2247
80 33 24
2249
23
Fomalhaut W.
69 42 44
2718
71 19
2711
7^*55 25
2705
74 31 58
2702
a Pegasi W.
50 34 "
2424
52 17 12
2417
54 ° 23
241 1
55 43 42
2407
Jupiter E.
49 30 42
2154
47 4i 5
2160
tl 5I 2 l
2165
44 2 16
2172
Pollux E.
71 38 8
2272
69 51 27
2278
68 4 56
2286
66 18 35
2295
Regulus E.
108 12 36
2200
106 24 8
2204
104 35 46
2208
102 47 31
2214
24
Fomalhaut W.
82 35 8
2708
84 11 37
2713
85 47 59
2720
87 24 12
2729
a Pegasi W.
64 21 2
2408
66 4 26
2412
67 47 44
2416
69 30 56
2422
a Arietis W.
20 59 9
2611
22 37 49
2566
24 17 31
2532
25 57 59
2507
Jupiter E.
34 58 12
221s
33 I0 2
2222
31 22 7
2233
29 34 29
2245
Pollux E.
57 30 ^3
2349
55 45 35
2364
54 1 8
2379
52 17 3
2394
Regulus E.
93 48 3°
2248
92 1 14
2257
90 14 11
2266
88 27 22
2276
25
Fomalhaut W.
95 21 57
2789
96 56 39
2805
98 31
81 28 24
2822
100 4 59
284X
a Pegasi W.
78 4 29
2463
79 46 34
2474
2485
83 9 59
2497
a Arietis W.
34 26 25
2460
3 6 8 35
2460
37 5o 45
2462
39 3« 5i
2466
Pollux E.
43 4* 59
2497
42 1 41
2522
40 20 59
2549
38 40 54
2580
Regulus E.
79 37 2
2331
77 5i 48
2344
76 6 53
2357
74 22 16
2370
26
a Pegasi W.
91 33 24
2565
93 13 7
2581
94 52 28
2597
96 31 27
2613
a Arietis W.
48 1 25
2505
49 4J 3*
25x5
51 23 24
2526
53 4 1
2538
Saturn W.
30 43 3
65 44 12
2405
32 26 30
64 1 39
2418
34 9 39
62 19 28
2433
35 5 a 2 7
2447
Regulus E.
2443
2459
2475
60 37 39
2492
27
a. Arietis W,
61 22 44
2604
63 * 33
46 1 S5
2619
64 40 2
2634
66 18 11
2649
Saturn W.
44 21 14
2523
2539
47 42 14
2555
49 22 11
2571
Aldebaran W.
27 53 54
2585
29 33 10
2597
31 12 9
2609
32 50 51
2622
Regulus E.
52 14 26
2577
50 34 59
2595
48 55 57
2613
47 17 20
2631
Spica E.
105 55 9
2542
104 14 54
2558
102 35 1
2575
100 55 31
2591
28
a Arietis W.
74 23 54
57 36 28
2725
76 1
2740
77 35 48
2756
79 » 14
2770
Saturn VV.
2651
59 14 14
2667
60 51 38
2682
62 28 42
2698
Aldebaran W.
40 59 42
2694
42 36 30
2709
44 12 58
2723
45 49 7
2738
Jupiter W.
20 46 30
2674
22 23 45
2684
24 46
2696
25 37 31
2708
Regulus E.
39 10 33
2728
37 34 35
91 6 16
2748
35 58 54
2769
34 23 46
2790
Spica E.
9 Z 43 33
2672
2688
89 29 20
2704
87 52 46
2720
Sun E.
136 42 4
3026
135 12 23
3043
'33 43 4
3060
132 14 6
3077
29
a. Arietis W.
87 3 29
70 28 50
2846
88 36 57
2860
90 10 7
2875
91 42 58
2889
Saturn W.
2774
72 3 52
2789
73 38 35
2803
75 " 59
2817
Aldebaran W.
53 44 58
2811
55 19 "
2825
56 53 6
36 46 56
2840
58 26 42
2853
Jupiter W.
33 37 7
2773
35 12 10
2786
2799
38 21 25
2812
Spica E.
79 55 4
2796
78 20 31
2811
76 46 18
2826
75 " 24
2840
Sun E.
124 54 *5
3161
123 27 29
3177
122 52
3193
120 34 34
3208
30
Saturn W.
83 35
60 10 29
2883
84 33 16
2894
86 5 42
2906
87 37 53
2918
Aldebaran W.
2917
67 42 26
2929
69 14 8
2941
70 45 35
2952
Jupiter TV.
46 9 43
2874
47 42 35
2885
49 15 13
2896
50 47 37
2907
Pollux W.
25 54 49' 3365
27 17 45
3332
28 41 19
3305
30 5 24
3284
Spica E.
67 27 17! 2906
65 55 6
2918
64 23 10
2930
62 51 29
2941
Sun E. 113 27 29' 3280
112 2 54 3293
no 38 34 3306
109 14 29
3319
— _-
o
XVIII.
«u
VH
AHti&l
tt, :
188*.
199
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
PJ,.
P.L.
P.L.
1
and
Midnight*
of
xv\
of
XVIIP.
of
XXI*.
of
Position.
diff.
diff.
diff.
diff.
1 *t
t *
/ n
t n
22
Jupiter E.
56 50 5
2140
55 7
2143
53 10 13
2147
51 20 25
2150
Pollux E.
78 46 10
2252
76 59
2256
75 11 56
2260
73 24 58
2266
23
Fomalhaut W.
76 8 35
2700
77 45 15
2700
79 21 ss
2701
80 58 33
2704
a Pegasi W.
57 *7 7
2405
59 10 35
2403
60 54 5
2403
62 37 35
2405
Jupiter E.
42 13 5
64 32 28
2178
40 24 4
2185
38 35 14
2194
36 46 37
2202
Pollux E.
2303
62 46 33
2313
61 53
2325
59 15 30
2336
Regulus E.
100 59 24
2220
99 11 26
2226
97 23 37
2233
95 35 58
2240
24
Fomalhaut W.
89 13
2738
90 36 2
2749
92 n 37
2761
93 46 56
76 22 10
2775
a Pegasi W.
71 14
2429
72 56 54
2436
74 39 38
*444
2453
a Arietis W.
a 7 39 3
27 47 8
2489
29 20 32
2476
31 2 19
24 13 26
2467
32 44 18
2462
Jupiter E.
2258
26 7
2272
2287
22 27 8
2304
Pollux E.
50 33 20
2412
48 50 3
2431
47 7 "
83 8 22
2451
45 24 50
2473
Regulus E.
86 40 47
2286
84 54 26
2297
2307
81 22 33
2319
25
FomalhautW.
101 38 34
2860
103 11 44
86 32 17
2881
104 44 28
2904
106 16 42
2927
a Pegasi W.
84 31 17
2509
2522
88 12 59
2536
89 53 22
2551
a Arietis W.
4i 14 53
2472
42 56 46
2478
44 38 3 1
2486
46 20 4
2495
Pollux E.
37 l 3*
2613
35 22 54
2649
33 45 6
2689
32 8 11
67 27 7
2734
Regulus E.
72 37 58
2384
70 54 1
2398
69 10 24
2412
2427
26
a Pegasi W.
98 10 4
2630
99 48 19
2648
101 26 9
2665
103 3 36
2683
a, Arietis W.
54 44 21
•551
56 24 24
2564
58 4 9
2577
59 43 36
2590
Saturn W.
37 34 55
2462
39 17 1
2477
40 58 47
2492
42 40 11
2507
Regulus E.
58 56 14
2507
57 15 «
2525
55 34 3*
2542
53 54 17
2559
27
a Arietis W.
67 56
2663
69 33 29
2678
71 10 38
2694
72 47 26
2709
Saturn W.
5i * 46
2587
52 40 59
2603
54 19 5°
2618
55 58 20
2635
Aldebaran W.
34 29 16
2637
36 7 21
2651
37 45 7
42 23 58
2665
39 22 34
2679
Regulus E.
45 39 7
2650
44 1 20
2669
2689
40 47 3
2708
Spica E.
99 16 23
2607
97 37 37
2623
95 59 14
2640
94 21 13
2655
28
a Arietis W.
80 46 21
2786
82 21 7
2801
83 55 34
2816
85 29 41
2831
Saturn W.
64 5 24
2714
65 41 46
2729
67 17 47
2744
68 53 29 2759
Aldebaran W.
47 2 4 56
2753
49 ° 25
28 50 13
2768
5° 35 35
2782
52 10 26; 2797
Jupiter W.
27 14
2720
2734
30 26 8
2747
32 1 46 2760
Regulus E.
32 49 5
2812
31 14 53
2835
29 41 11
2859
28 8 0] 2885
Spica E.
86 16 32
2736
84 40 40 2751
83 5 7
2767
81 29 56 2782
Sun E.
130 45 28
3095
129 17 12 3112
127 49 17
3128
126 21 41
3*44
29
a Arietis W.
93 15 3 1
76 47 5
2903
94 47 46 2916
96 19 44
2931
97 51 24
*944
Saturn W.
2831
78 20 53 2844
79 54 24
2857
81 27 38 2870
Aldebaran W.
60 2
2867
61 33 3I2880
63 5 48
2892
64 38 17
2905
Jupiter W.
39 55 37 * 8 *5
41 29 32*2837
43 3 "
2850
44 3 6 35
2862
Spica E.
73 3 8 48 2853
72 5 29 2868
70 32 29
2881
68 59 45
2893
Sun E.
119 8 34
3223
117 42 52
3239
116 17 27
•
3253
114 52 20
3266
30
Saturn W.
89 9 49
2928
90 41 32
2939
92 13 I
75 18 35
2949
93 44 18
7§49 8
2959
Aldebaran W.
72 16 48
2962
73 47 48
«973
2984
2993
Jupiter W.
52 19 47
2917
53 5i 44
2927
55 23 28
2937
56 55 2946
Pollux W.
31 29 ss
3267
32 54 45
3252
34 19 53
3241
35 45 14 3232
Spica E.
61 20 2
2952
59 48 49; 2963
58 17 50
2973
56 47 3 2983
Sun E.
107 50 39
3331
100 27 3 3342
105 3 4° 33S3
103 40 30 3364
o
200
DECEMBER, 1882.
AT APPARENT NOON.
|
4
THE SUN'S
Sidereal
Time of
Equation of
Time,
' "5
3
the Semi-
diameter
to be
eubt.from
O
Q
O
1
Apparent
Right Ascension.
Var.
in
1 hoar.
Apparent
Declination.
Var.
in
1 hour.
passing
the
Meridian.*
added to
Apparent
Time.
Var.
in
1 hour.
Frid.
Sat.
Sun.
I
2
3
h m s
16 30 10*06
16 34 29*66
16 38 49*90
s
10-803
10*830
10*856
t n
S.2I 50 50*8
21 59 53*4
22 8 30*7
»
23-13
22' 08
21*02
nt s
I 10*30
I 10*38
1 10*47
m 9
10 45*92
10 22-94
9 S9'33
s
0-944
0-971
0997
Mon.
Tues.
Wed.
4
5
6
16 43 io'7S
16 47 3*19
16 51 54-19
io*88i
10-905
10*928
22 l6 42*2
22 24 27-8
22 31 47*1
19*94
18-85
17-75
1 io*54
1 10*62
1 10-69
9 35'i°
9 10-28
8 44*90
1*022
1*046
1*069
Thur.
Frid.
Sat.
I
9
16 56 16*74
17 39-79
17 5 3-31
10*950
10*970
10-989
22 38 40*0
22 45 6-3
22 51 5-7
16-65
15-54
14*41
1 10*76
1 10-82
1 10-88
8 18-98
7 5*'S*
7 25-67
I*090
I*III
I*I30
Sun.
Mon.
Tues.
10
11
12
17 9 27*28
17 13 51-66
17 18 16*41
11*007
zi '024
11*038
22 56 38*1
23 i 43*2
23 6 20*9
13*28
12-14
11*00
1 10-94
1 10*99
1 11*04
6 58-33
6 30*59
6 2*47
IT48
1*164
i -179
Wed.
Thur.
Frid.
»3
IS
17 22 41*49
17 27 6-88
17 31 32-52
11*051
11-063
11-073
23 10 31*2
23 14 13-7
23 17 28*3
9-85
8-69
7'53
1 11*09
1 11*13
I 11*10
5 34*02
5 5'*8
4 36*27
1*191
1-203
1*213
Sat.
Sun.
Mon.
16
17 35 58*39
17 40 24*45
17 44 50*66
11*082
11*089
11-095
23 20 15 'I
23 22 33*8
23 24 24-4
6-36
5"i9
4*02
1 11*19
1 11*22
1 11*24
4 7-04
3 37-62
3 8-05
1*222
1*229
1-235
Tues.
Wed.
Thur.
'9
20
21
17 49 17*00
*7 53 43*43
17 58 9-93
11-099
11*103
11*105
23 25 46-8
23 26 41*0
23 27 6*9
2*85
1-67
0-49
1 11*26
1 11*27
1 11*28
* 38-35
2 8*55
1 38*70
1*240
1-243
1-245
Frid.
Sat.
Sun.
Mon.
Tues.
Wed.
22
*3
*4
25
26
27
18 2 36*45
18 7 298
18 11 29*48
18 15 55*92
18 20 22-27
18 24 48*50
11*105
11*105
11-103
11 -ioo
11-095
11*090
23 27 4-5
23 26 33-8
23 25 34*9
23 24 7*7
23 22 12*2
23 19 48*6
0*69
1-87
3-04
4*22
5*40
6-57
1 11*29
1 11-29
I TI*28
I 11*27
I 11*26
I H'24
1 8*81
38-92
9-06
1-245
1-245
1-243
1-240
1-236
1-230
20*74
50*46
1 20-05
Thur.
Frid.
Sat.
Sun.
28
29
30
31
18 29 14*58
18 33 40-47
18 38 6*15
18 42 31*58
11*083
11*074
11*065'
11*054
23 l6 56*8
23 13 36*9
23 9 49-1
23 5 33*5
7*74
8-91
10-07
11-23
I 11*21
I 11*19
I II*I 5
I 11*11
1 40*48
2 18*74
2 47*78
3 16*58
1-223
1-215
1-205
1 -194
Mon.
32
18 46 56*74
11-042
S. 23 50*0
12*39
I 11*07
3 45*io
1*182
*Mcan Time of the Semidiameter passu
ig may be found b
y subtract
ingc»'i9 fr
0111 the Sidereal Time.
Digitize
d by GOO
Rle
II.
DECEMBER, 1882.
20
AT MEAN NOON.
1
1
1
O
ft
THE SUN'S
Equation of
Time,
to be
added to
Apparent
Right Ascension.
Apparent
Declination.
Semi-
diameter.*
tubt.from
Mean
Time.
Sidereal Time.
Frid.
Sat.
Sun.
I
2
3
h m s
16 30 11 '99
16 34 31-53
10 38 51*70
t »
S.21 50 55*0
21 59 57-3
22 8 34*2
t
16 1
16 1
16 1
*5*8
t6'i
m •
10 45*75
lO 22 '77
9 59* 16
h m 8
16 40 57*75
x 5 *t 54 '22
16 48 50*86
Mon.
Tnes.
Wed.
4
5
6
16 43 12*48
16 47 33-85
16 51 55 -79
22 16 45-4
22 24 30-6
22 31 49*7
16 ■
16 1
16 ■
[6-2
■6-j
[6-5
9 34'94
9 10*12
8 44*74
16 52 47-42
16 56 43-97
17 40-53
Thur.
Frid.
Sat.
7
8
9
16 56 18*25
17 41*22
17 5 4*67
22 38 42*3
22 45 8*3
22 51 75
16 1
16 1
16 1
i6*6
*6* 7
[6-8
8 18-83
7 5* '42
7 *5*53
17 4 37-09
17 8 3364
17 12 30*20
Sun.
Mon.
Tues..
10
11
12
17 9 28*56
17 15 52*85
17 18 17*52
22 56 39*6
23 1 44*5
23 6 22*0
16 :
16 i
16 1
[6-9
[7-0
17*1
6 58*20
6 30*46
6 2*35
17 16 26-76
17 20 23*32
17 24 19-87
Wed.
Thur.
Frid.
13
H
IS
17 22 42*52
17 27 7*81
17 3i 33*37
23 10 32*1
23 14 14*4
23 17 28*9
16 i
16 i
16 1
[7*2
[7*3
7*4
5 33*91
5 5i8
4 36* 18
17 28 16*43
17 32 12*99
17 36 955
Sat.
Sun.
Mon.
16
17
18
17 35 59-15
17 40 25-11
1744 51*24
23 20 15*5
23 22 34-I
23 24 24*6
16 i
16 i
16 i
:*:§
7*7
4 6*96
3 37*55
3 7*98
17 40 6-io
17 44 2*66
17 47 5922
Tues.
Wed.
Thur.
19
20
21
17 49 *7*49
17 53 43*83
17 58 10*23
23 25 469
23 26 41*0
23 27 6*9
16 i
16 i
16 i
17-8
17-8
17-9
2 38*29
2 8*51
1 38*66
17 51 5S-78
17 55 5**33
17 59 48-89
Frid.
Sat.
Sun.
Mod.
Tues.
Wed.
22
*3
24
26
27
18 2 36*67
18 7 3*10
18 11 29*51
18 15 55*86
18 20 22-12
18 24 48-26
23 27 4-5
23 26 33*8
23 25 34*9
23 24 7-7
23 22 12*3
23 19 48*7
16 i
16 i
16 i
16 i
16 1
16 1
i8*o
t8*o
[8-i
i8*i
i8-i
[8-2
1 8*78
38*90
9*05
18 3 45*45
18 7 42-01
18 11 38-56
20*74
50*44
1 20*02
18 15 35*12
18 19 31-68
18 23 28*24
Thur.
Frid.
Sat.
Sun.
28
29
30
3i
18 29 14*24
18 33 40*04
18 38 5-63
18 42 30-98
23 16 57-0
23 13 37*3
23 9 49-6
23 5 34*1
16 i
16 i
16 i
16 ]
[8-2
[8-2
[8-2
[8'2
1 49*45
2 18*69
2 47*72
3 l6 *5i
18 27 24-79
18 31 21-35
18 35 17*91
18 39 14-47
Mod.
32
18 46 56*05
S.23 50-8
16
■8*2
3 45*03
l8 43 11*02
* 1
lieSei
midiameter for Apparent Noon may be
issumc
d thcs
ame as that fox
• Mean Noon.
Digitized by
Google
202
DECEMBER, 1882.
in.
MEAN TIM&
1
THE SUN'S
Apparent
Logarithm
of the
Radius
Vector
of the Earth.
Transit
of the
First Point
of
Aries.
THE MOON'S
Longitude.
Latitude.
Semidismeter.
Horizontal Parallax.
r «. #
Noon.
Noon.
Noon.
Wooh.
Midnight
Noon.
Midnight
1
2
3
Of*
249 14 25-5
250 15 17-5
251 16 io*8
S.o*49
0*46
0*40
9*9937344
•9936714
• 9936105
b m 1
7 17 50'33
7 13 54'4*
7 9 58-51
1 »
14 568
14 50-9
14 47*9
1 »
H 535
14 49*1
14 47*5
1
54 45*5
54 24-i
54 13*1
1 *
54 33*5
54 17*3
54 11 "6
4
5
-6
252 17 5-4
253 18 *'3
254 18 58-5
0-33
0*24
S.0'12
9*9935513
•9934938
•9934380
7 6 2*60
7 2 6*69
6 58 10*77
14 478
14 50-4
14 55 "4
14 48*8
14 52*6
14 58*7
54 12-6
54 22*1
54 40*4
54 16-2
54 30-*,
54 52*3!
I
9
255 19 56-9
256 20 56*3
257 21 56*8
0*00
N.0'12
0*25
9-9933839
•9933313
•9932803
6 54 i486
6 50 18-95
6 46 23-04
15 *'3
15 10-7
15 199
15 6-4
15 15-2
15 245
55 i'%
55 366
56 IO*2
55 20- 7
55 53*2
56 27-5
10
11
12
258 22 58-3
259 24 o*6
260 25 3 '7
0-37
0-49
0-58
9-9932308
•9931827
•9931361
6 42 27*13
6 38 31*22
6 34 35*30
IS 29-3
IS 3«"3
15 46-4
'5 33'9
15 42-5
15 50-1
56 44-6
57 17*6
57 47*4
57 i-4
57 33'°
58 o-8 .
»3
14
261 26 7*4
262 27 11*6
263 28 16*2
0*65
0*69
0*69
9-9930911
•9930476
•9930058
6 30 39-39
6 26 43*48
6 22 47-57
15 53*4
15 59-1
16 3-7
15 56-4
16 i*6
16 5-5
58 13-1
58 34-i
58 50*6
58 24*2
58 42-9
58 57-z
16
:?
264 29 21*1
265 30 26*3
266 31 31*8
0-67
0*62
0-53
9*9929658
•9929278
'9928919
6 18 51-66
6 14 5575
6 10 59- 84
16 7*0
16 9-1
16 io'a
16 8*2
16 9-8
16 10*2
59 2*7
59 io-7
59 i4'5
59 7*»
59 13*1
59 14*6
•9
20
21
267 32 37-4
268 33 43-3
269 34 49*5
0*42
0-30
0-17
9-9928584
-9928273
•9927988
6 7 3-93
6 3 8-oi
5 59 12*10
16 0-9
16 8'2
16 4-7
16 9*2
16 6*7
16 2*2
59 '3*5
59 7'i
58 54' 3
59 "I
50 i-6
5» 45 4
'22
23
24
27° 35 55*9
271 37 2-5
272 38 9-5
N.o*o4
S.o-o8
0-18
9-9927731
•99 2 75<>a
•9927301
5 55 16-19
5 51 20*28
5 47 24*37
'5 59'3
15 52-1
15 43'3
'5 55'9
15 47'9
is 38-4
58 8'2
57 35*9
38 22*3
57 52-7
57 i8*o
25
26
27
273 39 16-8
274 40 24*4
275 41 32-3
0*26
0*32
0-34
9*9927129
•9926985
• 9926869
5 43 28-46
5 39 32*54
5 35 3663
15 333
IS 22'9
15 127
15 28-1
15 17-7
15 8*o
56 59*4
56 21'2
55 44*0
56 40-4
56 n
55 26-6
28
|2 9
30
31
276 42 40*5
277 43 49'o
278 44 57*9
27946 7-1
0-35
0*32
0*27
0*21
9-9926781
•9926720
•9926684
•9926673
5 3i 40-7*
5 27 44'8i
5 23 48-90
5 19 52*99
IS 3-6
14 56-1
14 50-9
14 48-2
14 59-6
14 53*2
14 49*2
14 48-0
55 '0*5
54 43'i
54 23 "9
54 142
54 55*9
54 32*4
54 i7'8
54 133
32
280 47 16-6
S.O'I2
9*9926685
5 15 57*07
14 48-4
14 49-6
54 15 "o
54 I9-3
a*
Digitized by
oc
o
IV.
DECEMBER, 1882.
20'
MEAN TIME.
§
©
O
es
Q
THE MOON'S
Longitude.
Latitude.
Age.
Meridian Parage.
Noon.
Midnight,
Noon.
Midnight.
Noon.
Upper.
Lower,
I
2
3
9 *
H6 53 45 '9
158 55 28
170 48 21-7
/ H
152 55 42- I
164 52 23-7
176 43 34-1
t ft
S. 5 13 49-4
4 59 33'i
4 32 33' 1
O t ¥
S. 5 8 21- 1
4 47 S4"i
4 H 39'^
d
20*5
21'5
22' 5
h m
17 38-9
18 20'7
19 23
h m
5 17-5
5 59*9
6 41-5
4
S
6
182 38 37-5
194 30 41*6
206 29 7*4
188 34 8-4
200 28 50*9
212 32 O'O
3 54 3*9
3 5 **'7
2 8 25*2
3 30 56-3
2 37 53-7
1 37 i8*6
23-5
24'5
*5'5
'9 44'S
20 28*0
21 13*7
7 *3'3
8 6-o
8 50-6
1
9
218 37 54-8
231 16*9
243 38 28-3
224 47 I4'0
237 17 l8'I
250 3 53 -4
S. 1 4 51-1
N.o 2 48-8
1 11 38*6
S. 31 2i*6
N.o 37 17*2
1 45 26-4
26-5
27-5
28-5
22 1*8
22 52'6
23 45-6
9 37*4
10 26*9
11 i8*9
10
11
12
256 33 35-1
269 45 31-4
283 13 2-9
263 7 30*2
270 27 27*3
290 2 o*6
2 l8 I2'9
3 18 45**
4 9 26*0
2 49 28*8
3 45 33 '4
4 *9 57" l
29-5
o-8
i-8
* *
40*1
1 34-9
12 12*7
*3 7*5
14 2*1
13
15
296 54 0-7
310 45 419
324 45 14-7
303 48 41*6
317 44 39-8
331 47 7-2
4 4 6 43 '9
5 7 49'6
5 to 551
4 59 *6'7
5 " 4i-4
5 5 28-8
2-8
3-8
4*8
2 29*0
3 22*0
4 138
14 55-7
15 48-0
16 39-3
16
338 49 59*7
352 57 420
7 6 32*8
345 53 35*9
2 4*9
14 10 54-7
4 55 *5'5
4 22 3*0
3 32 43*2
4 40 52*7
3 59 "*7
3 2 59*i
5-8
6-8
7-8
5 4*6
5 553
6 46-6
17 30*0
18 208
19 I2'6
»9
20
81
21 14 59*0
35 21 25-9
49 24 I'D
28 18 33-8
42 23 20 a 7
56 23 IO*2
2 30 28-7
1 19 15-3
N.o 3 38-7
1 55 4*"7
N.o 41 41-8
S. 34 17-5
8-8
108
7 39 1
8 33*4
9 29*4
20 6*0
21 1*2
21 57-8
22
23
*4
63 20 26*6
77 7 555
90 43 32-4
70 15 29*0
83 57 23-9
97 26 I'D
S. 1 11 30*3
2 21 30*0
3 22 15-1
1 47 *5'3
2 55 15-1
3 48 8-5
u-8
12-8
138
10 26*3
11 23-2
12 i8*5
22 54 «9
23 51-1
* *
U
27
104 4 34- 3
117 9 0-5
129 55 54-8
no 38 57*i
123 34 397
130 12 51*3
4 10 38-5
4 44 4*'°
5 3 351
4 *9 3**4
4 56 3'°
5 7 *o'5
14-8
15-8
16-8
13 ii-4
14 1-3
14 48*2
45*3
1 36-7
2 25*1
28
29
30
3i
142 25 30*6
154 39 58*8
106 41 50-2
178 35 i3'3
H8 34 35 '3
160 42 14*2
172 39 18-4
184 30 ii*7
5 7 24'4
4 56 57'5
4 33 *7'7
3 58 21'6
5 3 53'8
4 46 45'3
4 17 J 5'9
3 36 56-0
17-8
18-8
198
20'8
re 32-7
16 15-5
16 57-4
17 39-2
3 I0 '7
3 54*3
4 3$'5
5 18-2
32
190 24 52*6
196 19 55-3
S. 3 J 3 i3'i
S. 2 47 23-6
21-8
18 21'8
6 o # 3
Digitized by
Googk
204
urJJiL
,iVLE
JiiJ
tt, 1882.
V.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Right
Ascension.
Tar.
in 10".
Declination.
Var.
inio".
1
Right
Ascension.
Var.
in io".
Declination.
Tar.
into*.
Fbiday I.
SUJTDAY 3.
h m i s
1 9 *
h m s ■
t » »
O
949IS-S9
19*174
N. 7 37 59*7
98*49
II 19 4*16
18*464
S. 03151-3
042 11*6
103*40
I
951 10-55
19-147
72^ 8*o
98-73
I
112054*94
18-463
103*36
2
953 5*35
19-119
71814*9
98-97
2
II 2245*72
18-464
052 31*6
103*32
3
9 54 59*98
19-093
7 820-3
99*ai
3
112436*51
18-464
I 251*4
103*28
4
95654-46
19*067
058 24*4
99*43
4
II 2627*29
II 28 18-08
18-464
i 13 io"9
103*22
5
95848-78
19-040
64827*2
63828*7
99-64
1
18*466
1 23 30-0
103*16
6
10 042*94
19-014
99-85
11 30 8*88
18-468
13348-8
103*11
7
10 236*95
18*990
628 29*0
100 * 06
7
113159-70
18-471
144 7*3
103*04
8
10 430*82
18-967
61828-0
100*26
8
113350-53
113541*38
18-473
15425-3
2 442-8
102*96
9
10 624-55
18-943
6 825-9
100-45
9
18-478
102*88
10
10 8 18-13
to 10 11-58
18-919
5 58 22*6
100*63
10
11 37 32*26
18-483
2 1459*8
102 ' 80
ii
18-897
54818-3
ioo*8i
11
113923*17
18-487
225 16-4
102-72
12
10 12 4-89
18-874
53812-9
100*98
12
11 41 14*10
18*492
23532*4
102*62
13
10 13 58*07
18-853
528 65
101*15
13
11 43 5-07
18-497
24547*8
102-53
14
101551*13
18-833
51759-1
101-32
H
114456*07
18-503
256 2-7
3 616-8
102*42
15
101744-07
18*813
5 7 50-7
101*48
J 5
11 4647*11
18-511
102*30
16
101936-88
18-793
457 41*4
101*63
16
11 4838*20
18-519
3 1630-3
102*19
17
1021 29*58
18-774
44731-2
ioi*77
17
115029*34
18-527
3 26 43 - 1
102-07
18
1023 22*17
i8'755
4 3720*2
101-90
18
11 52 20*52
18-535
33655*1
101-94
19
1025 14*64
18-737
427 8*4
102*03
19
115411*76
18-545
3 47 6 '4
101-81
20
1027 7-01
18-719
41655-8
102* l6
20
11 56 3*06,18-555
357168
101-67
21
1028 59*27
18-703
4 64^-5
102*28
21
115754-42
18-565
4 726-4
101*52
22
103051*44
18*687
35628*5
102-39
22
115945-8418-575
4I735-I
101-37
23
103243*51
18-671
N. 34613-8
102*50
23
12 1 37*3**' I 8-5«7
s. 42742-9
101*22
Satukd.
IT 2.
MOHDA
T 4.
103435*40
10 3627-38
18-656
N. 3 35 58-5
3 2542*6
102 '60
0'l2 3 28*88|i8'599
S. 4 3749'7|
101 -06
I
18*642
102*70
I
12 5 20'5I:i8-6i2
447 55*6
100*89
2
1038 19*19
18-628
3 15 26*1
102-79
2
12 7 12*22Ji8-624
458 0-4
100*72
3
1040 10-91
18-613
3 5 9*1
102*88
3
12 9 4*0018-637
5 8 4-2
100*54
4
1042 2*55
i8-6oi
25451*6
102*95
4
12 1055*8718-652
5 18 6-9
100*36
5
104354-12
18-589
244 33*7
103*02
5
12 1247-83
18-667
sz l I' 5
100*17
6
104545*62
18-577
*34i5-3
103*10
6
121439*87
18-682
538 8-9
99-98
7
104737-05
18-566
22356-5
103*17
2
12 1632*01
18*698
548 8-2
99-78
8
104928-41
i8-S55
21337*3
103-22
12 l8 24*24
18-713
558 6-2
99*57
, 9
10 51 19*71
18-545
2 3*7'9
103*27
9
12 20 16*57
18-730
6 8 vo
617 585
99-36
10
1053 io'95
18-536
1 52 58-1
103-32
10
12 22 9*00
18-748
99'U
11
1055 2-I4'i8- 5 2 7
1 42 38-1
103-36
11
1224 1-54
18-765
62752-6
98*91
12
105653*2718-518
1 32 17-8
103-39
12
122554*1818-783
6 3745'4
98-68
13
105844-3618-511
12157*4
103-42
13
12 27 46*93!i8-8o2
12 29 39'8oji8-822
64736-8
98-45
14
11 035-4018-504
1 11 36-8
103-45
H
65726-8
98-21
15
11 226*4118-498
1 1 16-0
103*47
15
123132-7918-841
7 7I5-3
97-96
16
11 417*3818-49*
05055*1
103-48
16
12 33 25-8918-861
717 2-3
97-70
IS
11 6 8-3118-486
04034-2
103-48
17
12 35 I9'I2'i8*882
72647-7
97*44
11 759-2118-481
30 13-3
103-49
18
12 37I2-47J18-903
7 36 31*6
97'»8
*9
11 950*0818-477
01952-3
103-49
19
1239 5'95!i8-9*4
74613-9
96*91
20
11 1140-9318-473
N. 931-4
103-48
20
124059-56^8-947
7 55 54-5
96-63
21
11 13 31-7618-470
S. 049*4
103-47
21
124253-3118-969
8 5 33-4
96-34
22
11 15 22*57 18-468
II 17 13-3718-466
II 10*2
103-45
22li2 4447-i9'i8-993
8 15 io-6
96-05
23
21 30*8
103-43
23 |I2 4641-22 19-017
82446-0 95-75
|| 24 " 19 4'l6;i8- 4 64
S. 03151*3103-40
241124835-39,19-041
S. 83419*6! 95-45
Digitized by
Google
VI.
VEAJZ
i]Vl±J
Hi J
Lt, J882
t.
%
205
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
Right
Ascension.
Var.
inio".
Declination.
Var.
inio».
«
Right
Ascension.
Var.
in io".
Declination.
Var.
in io".
Tuesday 5.
Thursday 7.
h m 8 8
1 H *
h m 8 b
o / * t
O
124835-3919-041
S. 8 3419-6
95*45
O
142333*17
20 * 660
S. 15 24 37-8
72*71
I
12 5029*71
19*065
84351-4
95*»4
I
142537:25
20*701
153152*1
72-04
2
12 52 24*17
19*090
85321-3
94*83
2
142741-58
20*742
1539 2*3
71*38
3
I2 54I8-79
19*116
9 *M9'4
94*5'
3
142946-15
20*783
1546 8*6
70*71
4
12 56 I3-56
1258 8-49
19*142
91215-4
94* 18
4
143150-97
20*824
155310-8
16 8*8
70*02
5
19*168
92139-5
93-84
5
143356*04
20-866
69*33
6
13 357
13 158-82
19*194
931 i«5
93*50
6
1436 1-36
20*907
16 7 2-7
68*63
7
19*222
94021-5
93*i6
1
1438 6-92
20*948
161352-4
67*92
8
13 354*24
19*250
9 49 39 '4
958 55-I
92*80
144012*73
20*990
1620 37-7
67*20
9
13 5 49-8^
19*278
9 2 *43
9
1442 18-80
21*032
162718-8
66*48 i
10
13 745 # 58
19-307
10 8 8-6
92*06
10
144425*11
21*073
163355-5
65*74
11
13 94^51
19*336
10 17 io-8
1026 288
91*68
11
1446 31*68
21*115
164027-7
65*00 ;
12
13 11 37-61
19*365
91*31
12
144838-49
21*156
164655*5
64*26 [
13
131333-89
^9*395
103535-5
90*92
13
H50 45-55
21*198
1653 l8# 8
63*50 :
14
131530-35
19*426
104439-8
90*52
14
145252*87
21*241
165937*5
62*73 :
:i
13 1727-00
•9*457
105341-7
90*12
15
1455 0-44
21*283
17 551-5
61-95 |
131923-83
19*488
11 241-2
89*72
16
1457 8-26
21-325
17 12 0*9
6i*i 7
17
15 21 20-85
19*519
11 11 38-3
89*30
17
145916*34
15 1 24-66
21*367
17 18 5*6
60*39
18
13 23 18*06
i9*55i
11 20 32-8
88*87
18
21*408
1724 5-6
59*59
19
132515-46
19*583
11 2924*7
88*43
19
15 3 33*23
21*450
1730 0-7
58-78
20
13 27 13-06
19*616
11 38 14-0
88-00
20
15 542*06
21*492
173551-0
57*97:
21
13 29 10*85
19*649
1147 0-7
87-56
21
15 75I-I3
15 10 0*46
21*533
174136-3
57*Hl
22
13 31 8-85
19*683
1155 44*7
87-11
22
21*576
174716*7
56*32
23
1333 7-04
19*716
S.12 426-0
86*65
23
15 12 10*0421-6x7
S.1752 52*1
55*48
WBBNB8
DAT 6.
Feida
r 8.
O
13 35 5*44
19*751
S.12 13 4-5
86-18
15 14 19-8621*658
8.175822-4
54*63
I
1337 4-05
19*785
12 21 40-2
85*71
1
151629-93
21*699
18 347-6
53*77
2
1339 2*86
19*820
12 30 13-0
85-22
2
15 1840*25
21*741
18 9 7-6
52*91
3
13 41 1-89
19-856
12 3842-8
84*73
3
15 2050*82
21*782
18 1422-5
52*04
4
1343 «''3
1345 0-58
19*891
1247 9-8
84*24
4
1523 1*63
21*823
18 19 32*1
51*16
5
19*926
125533-7
83*73
5
15 25 12*69
21*863
182436-4
50*27
6
1347 0-24
19-962
13 354-6
83-22
6
152723*99
2 1 * 904
1829353
49*38
2
1349 0-13
19*999
13 12 12*4
82*70
7
I5 29 35-54
21-945
18 3428-9
48*48 j
13 51 0-23
20*036
13 2027-0
132838-5
82*17
8
15 3147-33
21*984
18 39 17-0
47*57
9
1353 0-56
20*073
81*65
9
I5 33 59-35
15 36 11*62
22*024
184359-7
46*65
10
1355 rii
20*111
13 3646-8
8z*io
10
22*065
184836*8
45*7»
11
1357 1*89
20*148
I3445I-7
8o*55
11
153824*13
22*104
1853 8-4
44*79
12 13 59 2*89
20' l86
135253-4
80 '00
12
154036*87
22*143
185734*3
43*85
13
14 1 4-12
20*225
14 255*7
79*43
13
154249*85
22*182
19 154-6
42*90
14
M 3 5*59
20*263
14 846-6
78*87
14
1545 3-06
22*222
19 6 9*1
41*94
15
14 5 7-28
20*302
14 16 38-1
78*28
15
154716-51
22*260
19 10 17-9
40*98
16
14 7 9-21
20*341
142426*0
77*69
l6
154930-18
22*298
19 1420-9
40*01
17
14 9 "-37
20*379
1432 10*4
77'io
17
155144*09
22*337
19 18 18-0
39*03
18 14 11 13*76
20*419
143951-2
76-50
18
155358-22
155612*57
2V373
1922 9*2
38-05
»9
14 13 16*40
20*459
144728-4
75*88
19
22*411
192554-6
37*06 ,
20
141519-27
20*499
1455 i-8
75-26
20
155827*15
22*448
192933-9
36*05 .
21
141722-39
20*539
15 231-5
74-64
21
16 041*94
22*484
1933 7-2
35*05
22
141925-74
20*578
15 957-5
74*01
22
16 256*96
22-521
193634-5
34*04 ,
23
142129-33
20*619
15 17 19-6
73*36
23
16 5 12*19
22*556
193955-7
33*02 j
24
142333*17
20' 660
S. 15 H37-8
72*71
24
16 727*63
22-591
S.i9 43i°"7
3i*98
Digitized by VjOOQ
IF
2o6
DECEMBER, 1882.
VII.
o
1
z
3
4
5
6
7
8
9
10
11
12
13
16
17
18
19
20
21
22
23
O
I
2
3
4
i
7
8
9
10
11
12
13
H
!I
18
19
20
21
22
23
24
MEAN TIMK
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Right
Ascension.
Var.
inio-.
Declination.
Var.
in 10™,
Saturday 9.
727-63
943-28
611 59-15
6 14 15*22
6 16 31*49
6 1847-96
621 4-63
6 23 21-49
62538-55
6 2755-80
6 30 13*23
:6 32 30-84
6 34 48 • 64
637 6-6i
6 39 24-76
641 43*08
644 1-56
646 20*20
648 39*01
65057*97
653 17-08
65536*34
65755*75
7 o 15*30!
22-591 S<
22 "6271
22*662
22 '695'
22-728
22*762
22*794
22*827
22*859
22*890
22*920
22*951
22*981
23*010
23*039
23*067
23*0931
23*121
23-148
23*173
23*198
23*223
23*247
10-7' 31-98
1943 I .,
1946 19-5! 30*96
19 49 22* 2129*92
1952 i8"5j 28*87
1955 8*6,27*82
195752-326*75
' 25*68
20
20
20
20
20
O29
3 O
5 25
743
9 54
5j 24-62
23*54
22*46
5 2I "37
20 11 59*4] 20-27
20 13 57*8' 19-17
20 1549*5, 18*07
16-96
15-84
14*72
20 1734*6
20 19 13*0
202044-7
2022 9*6| 13-59
2023 27*8 12*47
2024 39-2] u*33
202543*8
202641-5
2027 32*3
23*2708.20 28 16*3
10-19
9*04
7-90
6*75
Sunday 10.
234
4 54 „
714-76
934-84
711 55*04
71415-36
71635-79
71856*33
721 16*98
72337*73
72558*58
72819-53
73040*56
733 i*68
7 35 22*88
73744*16
740 5*5'
74226-93
74448*41
747 9*95
7 49 3^55
75153-20
7 5 6 3 6-(
75858*43
23*293 S. 20 28 53-3
2029 23-4
202946*6
2030 2-7
20 30 11*9
20 30 14-0
2030 9-1
2029 57-2
2029 38*1
20 29 12*0
2028 38*8
2027 58*5
2027 ii* 1
2026 16*5
20 25 14*8
2024 5-9
20 2249-9
2021 26*7
20 19 56-4
2018 i8*8
20 16 34-1
20 1442*2
20 1243-2
201030*9
S.20 823-5
23*3*4
23*336
23*357
23*377
*3'396j
23"4"4j
23*432.
23*450
23*467,
23'483
23*498
23"5i3 !
23'527J
*3'540|
23*552
23*564!
23-575
23-585
«3'595
23*604
23*613
23*621
23-627
23*633
5*59
4'44
3*28
2*11
0*94
0*23
1*40
2-58
3'77
4'94
6*13
7-3i
8*50
9.69
10*88
12 '08
13*27
14*46
15*66
16-86
18*05
19*24
*o-44
21*64
22-83
O
I
2
3
4
5
6
7
8
9
10
11
12
13
15
16
17
18
19
20
21
22
23
o
1
2
3
4
5
6
1
9
10
11
12
13
H
:i
17
18
19
20
21
22
23
H
Bight
Ascension.
Var.
inio-".
Declination.
Var.
in 10™.
Monday ii.
h m s 8 o t tt
758 58-43'23*6 33 S.20 823-5
8 120*25
8 342-10
8 6 3*98
8 825*88
8 1047-80
813 9-73
8 15 31*67
8 1753-62
820 15-58
8" 37-53 .
82459-48,23*657
82721-42,23-655
82943-34,23*653
832 5*2523-650
83427-1423*646
8 3649-0023*642
83910-8423-637
841 32-6523-632
84354-42123*625
46 1
23*639
23*644
23*648
23-652
23-654
23-656
23-658
23-659
23-659
23*658
6 2*9
3 35-1
20
20 I 0*2
1958 i8'i
195528*8
195232-4
194928*8
1946 18 -1
1943 03
I9 39 35-4
1936 3-4
193224-3
1928 38-1
192444-9
192044-7
191637-4
19 12 23-2
19 8 2-0
19 333-9
185858-8
18 54 16-9
184928-0
S.i844 32- 3
9 7 2 9-47
9 9 5°* 6 4
9 12 11-73
91432-75
91653*69
9 191455
9* 1 35*33
92356-02
9 26 16-62
92837-13
9 3° 57-55
9 33 I 7'87, - ..
93538-0923*362
93758-2123*345
940 18*23123*328
94238*15123-311
94457*9623*293
94717-6723*275
94937*2623-257
8 46 16-15 23-618
848 37-8423-611
85059*48123*603
85321*0823*596
Tuesday 12.
8 5542-63;23*58 7 S.i8 39 29-8 (
183420-5
1829 4-41
182341*6
18 18 12-2
18 12 36-0
18 653-2
18 1 3'8|
1755 7-8;
1749 5-21
174256*2!
173640-7
17 30 18*8
172350-5!
171715-8,
171034*8,
l l I 47 ' 6 !
16 56 54 2
1649 545
16 42 48 • 8
1635 369
1628 19-0,
16 20 55-1?
16 1325*2
858 4-I2]2 3 *577
9 025-55123*567
9 246*92123*557
9 5 8-2323*546
23-534
23-522
23-509
23-497
23-483
23-470
23-456
23-441
23-426
23*411
23-395
23-378
9 51 56- 75|2 3 -2 3 8 ( S.i6 5 49'4'76-45
*
22*83
24-03
25-23
26*42
27-62.
28-81
30-00
31-19
32-38
33*56
34*74
35*93
37-11
38-28
39*45
40-62
41*79
4** 95
44-11
45*27
46*42
47*57
48*72
49-85
50-98
52-12
53*24
54*35
55*47
56-58
57-68
58*78
59*88
60*97
62*04
63-12
64*18
65*25
66-31
67*35
68*38
69-42
70*45
7»*47
72-48
73*48
74 48
75*47
76-45
Digitized by
Coo
o
VIII.
DECEMBER, 1882;
207
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
%
3
Right
Ascension.
Var.
in to".
Declination.
Var.
in io".
i
w
Eight
Ascension.
Var.
inio m .
Declination.
Var.
in io".
Wedjtesday 13.
Friday
15-
h m s b
§ * *
h m 8 1
/ * *
O
195156-75
23-238
S.16 549-4
76-45
21 41 II '89
22
'311
S. 823 17*5
112*42
I
19 54 10-12
195635-38
23-219
1558 7'8
77-42
I
214325-71
22
295
8 12 1*5
112-92
2
*3'20I
15 5020-3
78-39
2
214539-43
22
'280
8 042*5
113-40
3
19 58 54*53
20 1 13*56
23-182
154227-1
153428-2
79' 34
3
214753-07
21 50 6*62
22
•266
74920*7
113-87
4
23-162
80*28
4
22
•251
73756*1
72628*7
"4*33
1
20 332-47
23-143
15 2623-7
81-22
5
21 52 20*08
22
•237
114*78
20 551*27
23-1*3
15*813-5
82*16
6
215433-46
21 5646*76
22
•223
* 7H58*7
115-22
7
20 8 0/95
20 1028-51
23-103
15 957-8
83-08
7
22
'210
7 326-1
115-64
8
23-083
15 136-5
84*00
8
21 58 59-98
22
■197
651 51-0
116*06
9
201246*95
23-063
1453 9*8
84*90
9
22 I I3'I3
22
■185
64013-4
1 16 -47
10
2015 5*26
23-043
H44 37'7
85*79
10
22 3 26'20
22
•173
62833-4
116-86
11
20 1723-46
23-023
14 3 6 °'3
86-68
11
22 5 39*20
22
'l62
6 16 51-1
1x7*24!
12
201941*53
23*002
142717-6
87'55
12
22 7 52*I4
22
•151
6 5 6*5
117*62.
'3
2021 59*48
22-981
14 1829-7
88*42
13
22 10 5*01
22
'140
5 53*9-7
"7*97!
H
2024 17*30
202635*00
22*960
14 936-6
89-28
14
22 12 17*82
22
'129
54130-9
.18-31;
IS
22*940
14 038-4
90*13
*5
22 14 30*56
22
•119
5 2940*0
118-66
16
2028 52-58
22-919
I3 5I35-I
90-97
16
22 1643-25
22
'110
51747-0
118-98
17
2031 10-03
20 3327-36
22-898
13 42 26-8
91-79
17
22 1855*88
22
*IOO
5 5 5*'2
119-29
18
22-878
133313-6
92*62
18
2221 8-45
22
•091
453 55*5
119-59
l 9
*o3|44'57
2038 1-65
22-858
132355-4
93*43
19
22 23 20*97
22
•083
44i57'i
119-88
20
22-837
13.1432-5
94*22
20
222533-45
22
•076
42957-0
120*16
21
2040 18-61
22*8l6
13 5 4'8
95*02
21
22 2745-88
22
-068
41755*2
120*43
22
204235-44
22-795
125532*3
95- 80
22
22 29 58*27
22
■062
4 551-8
120*69
23
204452-15
22*774
S. 12 45 55-2
96-57
23
22 32 IO-62
22
•05s
s. 35346-9
120*93
Thuesd.
iY 14.
Satubd,
1Y l6. J
2047 8-7322-753
8.123613-5
97*33
22 34 22*93
22
•049
S. 34140-6:121-16
I
204925-1922-733
12 2627-3
98-08
I
22 36 35*21
22
•043
32933-0121-38,
2
205141-53122-713
12 16 36*6
98*82
2
223847-45
22
•038
3 1724-0
121-60
3
*°53 57'75;« ,6 93
2056 13-8522-673
205829-8222-653
12 641-5
99*54
3
22 40 59*66
22
•033
3 513*8
121-79
4
1 1 56 42 - 1
100*27
4
2243 11-85
22
•030
253 2-5
121-97
5
114638*3
100*98
5
22 45 24*02
22
•027
2 40 50 • 1
122*15
6
21 045*6822*633
11 36304
101-67
6
2247 36-17.
22
-023
2 28 36-7
122*32
1
21 3 1*41
22*613
11 26 18-3
102*36
7
224948*30
22
•020
2 1622*3
122*48
21 5 I7-O3
22-593
11 16 2-1
103-04
8
22 52 0-41
22
•0l8
2 4 7-0
122*62
9
21 732-53
22-574
11 541-8
103-72
9
22 54 12*52
22
•017
15150-9
122-74
10
21 947'9 2
"'555
105517-5
104-37
10
22 5624-61
22
•015
13934-1
122*87
11
21 12 3*19
22-536
104449.4
105-01
11
22 58 36*70
22
•OI5
1 27 16-5
122*98
12
21 14 18-35
22-517
103417-4
105-65
12
23 048*79
22
•015
1 1458*4
123-071
l i
21 163V40
21 1848-33
22*498
102341*6
106*27
'3
23 3 o*88
22
•015
1 239-7
123*15;
14
22-479
10 13 2-2
106*88
14
23 5 12-97
22
•017
05020*6
123*22
*5
21 21 3*15
22*462
10 2 19-1
107*48
15
23 725-08
22
•0l8
038 i- 1
123*28
16
21 23 17*87
22-444
95132-4
108*08
16
23 9 37M9
22
'020
02541*3
123-33
17
21 25 32*48
22*426
9 40 42 - 2
108 '66
17
23 1149*32
22
•023
13 21*2 123-37'
18
21 2746-98
22-408
92948-5
109-23
18
23 14 1-46
22
•025
S. i 0-9123-39
19
21 30 1*38
22*392
9 1851-4109-79
19
23 16 13-62
22
'029
N. 11 i9'5Ji23-4o
20
21 32 15-68
22-375
9 751-0110-33
20
23 18 25-81
22
•O33
02339-9123-40
21
21 3429*88
22-358
85647-4
110-87
21
23 20 38*02
22
'O38
036 0-3123*40;
22
21 3643-98
22-342
84540-5
111*41
22
23 22 50-26
22
•O43
04820-7123-381
*3
213857-98
22-326
8 34 3°'5
1 1 1 - 92
23
2325 2*53
22
O48
1 040-8123-331
24 21 41 11*89 22-311
S. 823 17-5
112-42
24
232714*83
22
053
N. 1 13 0*7 123-29
Digitized by
Googk
208
DECEMBER, 1882.
IX.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Right
Ascension.
Var.
in io".
Declination.
Var.
in I© - .
1
Right
Ascension.
Var.
in 10*.
Declination.
Var
in io».
SUHDAY 17.
Tuesday 19.
h m • ■
f W 9
h m s s
/ • 9
23 27 14*83 22*053
N. i 13 0-7
123*29
I 1442*61
22*885
N.io 37 2*81x07*15
I
23 29 27*17
22*061
I 25 20-3
123*23
I
I 17 O*O0
22*911
104743*8 106*52
2
2331 39*56
22* 068
1 37 395
1 49 58*2
123*16
2
11917*54
22*937
IO58 2I*0
105*88
3
233351-99
2336 4-46
22-07S
123*08
3
12135*24
22-964
II 854*3
105-23
4
22-083
2 2 16-4
122*99
4
12353*11
1 26 11*13
22*991
II 1923-7
104*56
5
2338 16-99
22'092
2 14 34' *
122-89
5
23*018
II 2949*0
103-88
6
234029-57
22-IOT
2 2651*1
122-77
6
I 28 29*32
23*045
11 40 10*3
103-20
1
23 4242*20
22-1X0
*39 7'3
122*63
7
13047*67
23*073
11 5027*4
102-49
23445489
22*120
2 51 22*7
122*50
8
133 6*19
23*101
12 040-2
101*78
9
2347 7-64
22*131
3 3 373
122-35
9
I 3524*88
23*128
12 1048-8
101*07
10
2349 20-46
22*142
31550*9
122*l8
10
13743*73
23-156
12 20 53-0
100*33
11
235133-34
235346-30
22-153
3* 8 3'5
122*01
11
140 2*75
23-184
12 3052*8
99*59
12
22-166
34015*0
121*82
12
14221*94
23-2x2
124048*1
98*83
*3
*3 55 5933
22*178
352253
121*63
13
14441*30
147 0*82
23-240
12 50 38*8
98*07
14
235812-43
22'I9I
4 4 34*5
121*42
14
23*268
13 024*9
97*28
IS
025-62
22*205
4 1642*3
121-18
l S
1 49 20*52
23-297
13 10 6*2
96-49
16
238-89
22-219
42848*7
12095
16
15140*38
*3*3*4
13 1942-8
95-70
l l
452*25
22*233
440 53'7
120*71
17
154 0*41
*3'353
13 29 14-6
94*88
18
7 5-69
22'248
45257*2
120*46
18
1 5620-62
23*382
133841-4
94* 06
19
9 19*22
22*263
5 459*2
120-18
19
15840*99
23*410
1348 3-3
93*22
20
11 32*85
22*279
51659-4
119-89
20
2 1 1*54
23*438
13 5720-1
92*38
21
01346-57
016 0-39
22*295
52857*9
119*61
21
2 322*25
23*466
14 631*9
91-53
22
22*312
5 40 54-7
119-31
22
2 543*13
2 8 4*19
*3*495
141538*5
90*66
23
18 14*31122*329
N. 5 5M9- 6
118*98
23
23*523
N.i4 24 39'8
89*78
MOffDA
r 18.
Wedhesi
)AY ZO.
02028-3422*347
N. 6 442*5
118-65
2 1025*41 23-551
N.I4 33 35-8
88*89
I
02242-47
22*365
61633-4
1x8-31
I
2 1246*80
»3'579
1442 26-5
87-99
2
02456-72
22*384
62822*2
117-96
2
2 15 8-36
23*608
145111-7
87-08
3
027 11-08
22*403
640 8-9
"7*59
3
2 17 30*09
23*636
145951-4
15 825-6
86* 16
4
02925-55
22*422
65153*3
117*21
4
21951*99
23*663
85*23
5
31 40*14
22*442
7 3 354
116-82
5
2 22 14*05
2 24 30*28
2 2658*67
23-691
151654-2
84-28
6
03354-85
22*462
7.1515-2
116*42
6
23-718
15 25 17*0
83-33
s
036 9*68
22*483
72652-5
xi6*oo
7
*3*745
153334-2
82*37
038 24*64
12*503
7 38 27-2
115*58
8
2 29 21*22
23*772
I54I45-5
81*40
9
04039-72
22525
7 49 59*4
1x5*15
9
23143*93
*3*799
154951-0
80*42
10
04254-94
22*547
8 1 29-0
114*70
10
234 6*8i
23*826
i5 57 5o-5
79*43
11
045 10*28
22*568
8 1255*8
114-23
11
2 3629*84
23*852
16 544*1
78*43
12
04725*76
22-591
824 19*8
113*76
12
23853*03
241 16*38
23*878
16 13 31-6
77-41
l $
04941*37
22*613
83540*9
113-27
13
23-904
1621 13-0
76-39
M
51 57*12
22*637
84659-0
XI2-77
14
24339-88
23*930
162848*3
75*37
15
54 13-01
056 29*04
22 '660
858 14-1
1x2*27
n
246 3*54
23956
1636 17*4
74*33
16
22*683
9 926*2
xxi-75
16
24827-35
23*980
1643 40-2
73-28
:i
05845*21
22*708
920 35*1
111*21
l l
2 50 51*30
24*004
165056*7
72*22
1 1 1*53
22*733
93140*7
no'66
18
25315*40
24*028
1658 6*8
7i*i4
19
1 3 18-00
22*758
94243*0
1X0*11
19
25539-64
24*052
17 510*4
70*07
20
1 5 34'62
22*783
95342*0
109*55
20
258 4*03
24*076
17 12 7*6
68-99
21
1 751*39
22-808
10 437*6
108*97
21
3 028*55
24*098
17 1858-3
67*89
22
1 10 8-31
22-833
10 15 29*6
io8'37
22
3 253*21
24*122
172542*3
6679
*3
1 12 25*58
1 1442*01
22*858
1026 i8*o
107*77
23
3 518*01
24*144
17 32 19*8
65-68
*4
22*885
N.io 37 2*8
107*15
24
3 7 42*94
24*166
N.I7 38 50-5
6456 |
Digitized by
~ ^Ie
X.
DECEMBER, 1882.
209
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
1
Right
Ascension.
Var.
in io" - .
i Var
Declination. ' in io».
1
a
Right
Ascension.
Var.
in io».
Declination.
Var.
in 10".
Thursday 21.
Satxjeday 23.
h m 8 s
t if *
h m b b
/ * n
O
3 74*'94
24*166
N.17 3840-5
64-56
5 5 2-i7
24-430
N.20 28 56*0
5*01,
I
3 10 8*oo
24-187
I745I4-5
63-44
I
5 728-71
24*417
20 29 22*2
373 '
2
3 12 33* 18
31458-49
24*208
175131-8
62-31
2
5 955*17
24*402
20 29 40'8
2*461
3
24*228
175742-2
61-16
3
5 12 21-53
24*385
20 29 51*7
i*i8
l
4
3 1723-92
24-248
18 345-7
6l '02
4
5 1447-79
24-369
20 29 54*9
009 !
5
3 I9 49H6
24-267
18 942*4
58-87
5
5 17 13*96
24-352
20 29 50*6
1*36;
6
3 22 15*12
24*286
181532-1
57'7©
6
5 1940*01
24*333
20 29 38*6
2*63
7
3 2440-89
24-303
18 21 14*8
56*53
1
522 5-95
24-314
20 20 19*0
20 285I-8
3*90
8
327 6-76
24-321
18 2650-4
55*35
52431-78
5 2657-48
24*294
516,
9
32932*74
331 58*82
24-338
18 32 19-0
54-18
9
24*273
20 28 17*1
6*41 !
10
24*355
183740-5
52-98
10
5 29 23*06
24252
2027 34*9
7-66
11
33425-00
24-371
1842 54-8
51-78
11
53148-50
53413-81
53638-97
24*229
202645*2
8-92
12
33651-27
24*386
1848 1-9
50-58
12
24*206
202547*9
10*17,
13
33917-63
24*400
1853 i-8
49-38
«3
24*182
20 24 43*2
11-40'
14
3 4i44'°7
24-414
I8 57 54-5
48-17
»4-
5 39 3 "9?
54128*86
24-157
2023 31* I
12*64
15
344 10-60
24-427
19 239-8
46*94
'5
24-132
20 22 11*5
13*88,
16
34637-20
24-440
19 717*8
45 '73
16
54353*57
546 18*12
24-105
20 20 44'6
15*10 ,
i l 7
3 49 3*88
24-452
19 11 48'S
44-50
:i
24-078
20 19 10*3
16*32 |
|i8
35130-63
24-463
19 16 ii-8
43-26
54842*50
24*050
20 1728*7
•7*54'
19
3 53 57*44
24*473
192027-6
42-01
*9
55i 6*72
24*022
20 15 398
i8'75:
! 20
35624-31
24-483
19 24 36*0
19 28 37-0
40-78
20
55330*76
23-992
201343*7
19*96
21
35851-24
24-492
39*53
21
55554*62
23-962
20 II 40*3
21*16
:22
4 I l8*2*
24-501
193230-4
38-18
22
5 58 18*30
23-932
20 929*8
22-35
23
4 3 45' 2 5 24*508
N.19 36 16-3
37*03
n
6 041*80
23*901
N.20 712*1
23*54
Peida 1
r 22.
SUBDAI
r 24.
4 6 12-32 24-515
N.i9 39 54'7
35*77
6 3 5*n
23-868
N.20 4 47-3' 24-72
I
4 8 39'43
24-521
194325-5
34*50
I
6 528-22
23-836
20 2 15* 5] 25*89
2
411 6-57
24*526
194648-7
33-23
2
6 75i'i4
23*803
19 59 36-6; 27*07
3
41333-74
4 16 o*93
24-530
1950 4-3
31-97
3
6 10 13*85
6 1236*35
23-768
19 56 50- 7
28-23
4
24*533
195312-3
30*69
4
«3*733
195357-9
29*38
i
4 1828-14
24*537
19 56 J2*6
2942
5
6 14 58*65
23-698
19 5° 58*2
30*53
4ao55-37
423 22'6l
24*539
19 59 5'3
28-15
6
6 1720*73
23*662
194751*6
31*67
1
24-540
20 1 50-4
26-87
1
61042*59
62*2 4*23
23-625
194438*2
32*80
42549*85
24-540
20 427-7
25-58
23*588
1941 18*0
33*93
9
428 17*09
24*539
20 657-4
24*30
9
62425-65
62046*84
23-551
193751*0
35-o5
10
43044*32
24*538
20 9 19*3
20 11 33 -6
23-02
10
23-513
193417*4
36-15
11
433 11-54
24-536
21-73
11
629 7*80
23*474
19 30 37*2
37*26
12
4 35 3 8 '75
H'533
20 1340-1
20*44
12
631 28-53
23*435
19 26 50*3
38*36
13 4 3 8 5'94 24*5*9
20 15 38-9
19-16
13
633 49-02
636 9*27
*3*395
1922 56*9
39*44
*4 4 4<>33* I0 *VSH
20 17 30*0
17-87
14
23*354
19 18 57*0
40*52
i5'443 °' 2 3
24-518
20 19 13-3
202048*9
16-58
15
6 38 29*27
23-313
191450*7
41-58
16,44527*3^
24-512
15-29
16
64049*03
23*272
19 10 38*0
42*65
'7
44754-38 24-506
2022 i6*8
14*01
17
643 8*54
23231
• 19 6 18-9
43*70
18
45021-39 24497
20 23 37-0
12-72
18
645 27*80
23-189
19 153*6
l8 57 22*0
44*74
19
45248-34 24-488
202449-4
11-43
19
64746*81
23-147
45*78
20
45515-24 24-478
2025 54-2
10-15
20
650 5*56
23-103
18 52 44*2
46-82
21 45742*08124*467
2026 51*2
8-86
21
6 52 24*05
23*060
1848 0*2
47*83
22
5 8-8524-456
202740-5
7*58
22
65442*28
23-017
1843 1°' 2
l8 38 I4'2
48*83
23
5 * 35*55 ,'4*443
2028 22-1
6*29
23
657 0*25
22*973
49*83
24
5 5 *'"-7| a +'43o
N.20 28 56-0
5-01
24
65917*95
22*928
N.l8 33 12*2
50-82
14
(nautical almanac, 1882.)
o
10
DECEMBER, 1882.
XI.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
Right
Ascension.
Var.
inio».
Declination.
♦far.
In io*.
*-
§
Right
Ascension.
Var.
inio".
Declination.
Vap.
in xo"».
Monday 25.
Wednesday 27.
h m • s
# ♦ *
h m b s
1 tr v
65917-95
22 '928
N.18 33 12-21 50*82
8 43 57* 1920*684 N.12 53 25-0
86*99
I
7 I3S-38
22*883
1828 4*351*81
I
846 I'l6 ! 20*64G
! 124441*5
87*51
2
7 3 5^-55
22*838
l8 22 50-5 52*78
2
848 4-8720-597; 12 3554-9
88-02
3
7 6 9 # 44
7 820*07
22-793
18 17 30-9' 53*75
3
850 8-32
20-553
1227 5*3
1 12 18 12*7
88-52
4
22-748
18 12 5- 5 54-70
4
8 52 11*50
20*509
89*01
5
7 1042*42
22*702
18 634-5155-64
5
8 54 14-43
20-467
j 12 917*2
89-48
6
71258-49
22*655
18 057*8! 56*58
6
8 56 17*11
20*425
12 018*9
89*96
7
7 15 14-28
22 * 609
I755I5-5 57'5*
1
85819-53
20*383
115117*7
11 42 13-8
90-43
8
7 1729*80
22563
174927-7 58*4*
9 021-70
20*342
90-88
9
71945-04
22-517
I743 34 # 5 59'3a
9
9 223-63
20*301
11 33 7*2
11 23 58*0
91-32
10
722 o-oo
22*469
17 37 35*9|6o-2a
10
9 425-3 1
20*259
91*76
11
72414-67
22-422
17 31 31-9 6i-ii
11
9 626-74
20'2l8
11 1446*1
9*-l8
12
726 29-06
22*375
1725 22*6 61-98
12
9 827*03
9 1028-88
20-178
11 531*8
92*59
'3
72843-17
22*328
17 19 8*162*85
13
20-138
1056 15*0
93*01
H
7305699
22*280
17 1248-4 63-71
H
91229*59
20*099
104655-7
93*41
ij
7 33 i°'53
22*233
17 6 23 -6' 64-55
15
91430-07
20' 060
103734-1
93* 80
16
73523-78
22*184
165953-8' 65-38
16
9 1630-31
20*081
1028 10' 1
94-19
15
73736-74
22-137
16 5J 19*0 66*22
1646 39 '2 67*04
17
9 1830-32
19*983
10 1843*8
94*57
73949-42
82 * 089
18
9 20 30*11
19*946
10 915-3
95944-6
94*93
*9
742 i- 81
22*042
163954*5 67-85
19
9 22 29*67
I9'908
95-29
20
74413-92
21-993
1633 5 *o| 68-64
1626 10*8 69*43
20
92429-00
9 26 28*12
19*87I
9 50 11 -8
95'64
21
74625-73
21*945
21
I9835
94036-9
95-99*
22
74837-26
21*897
16 19 11-9' 70*21
22
928 27-02
I9*798
93059-9
9* -33
23
75048-50
21-849
N.1612 8'3 k 7o*98
23
9 30 25 • 70
19*763
N. 9 21 21*0. 96-65
TUESDA
Y 26.
Thuesd,
iY 28. -
7 5*59-45
21- 8oi
N.l6 5 0*2
71-73
93224*1719-728
N. 9 11 40* it
96*97
I
75510-11
21-752
155747*6
72-48
I
93422-43
9 3620-48
I9693
9 I57-3
8 52 12*7
97*28
2
75720-48
2I-705
155030-4
73*22
2
19*658
97-58
3
75930-57
21-657
1543 8-9
73 '94
3
93818-33
19*624
842 26-3
97*88
4
8 140*37
8 349*88
21'609
I53543-I
74*66
4
940 15-97
19*591
83238*1
98*17
5
2X*562
15 28 13-0
75*37
5
94213-42
I9*558
8 2248*2
98-45
6
8 559-11
21*5X4
15 20 38*6
76*08
6
94410-67
I9*525
8 12 567
98*72
7
8 8 8-05
21-467
15 13 o-i
76*76
1
946 7-72
'9*493
8 3 Yl
98*99
8
8 10 16-71
2I*4I9
15 517-5
77*44
9 48 4*59
19-462
753 8-8
99-25
9
8 12 25*08
2I-372
145730-8
78-12
9
95o 1-27
19-431
74312-5
99*50
10
81433-17
21*324
144940-1
78*78
10
95157-76
19*400
73314*8
99*74
11
8 1640-97
21-277
144145-5
79*4«
11
9 53 54-07
19*370
723 156
99'98
12
8 1848-49
21*230
143347-1
80*05
12
95550*20
19-341
71315-1
100*20
1
*3
82055-73
21-183
142544*9
141738-8
80*69
13
95746*16
19*312
7 313-2
100*42
14
823 2*69
21*137
81-32
14 95941*94
19-283
6 53 io-o
100*64
IS
825 9-37
21*091
14 929*1
81*92
15 10 137-55
19-255
643 5-5100*85
16
82715-78
21*045
14 1 15-8
82*52
16 10 333-00
1 7 j 10 528-28
19*228
632 598
101*04
*7
8 2921-91
20*998
1352589
83-12
19*200
6 22 53-0
101*23
18
8 31 27-76
20*953
134438-4
83*70
18 10 723*4019*173
6 1245*0
101*42 .
x 9
833 33-34
83538^5
20*908
133614-5
84*27
19 10 9 18*36
19*147
6 235*9
ioi*6i
20
20*863
132747*2
84-83
20 10 11 13*17
19*122
55225*7
101*78
21
83743-69
83948-45
20-817
13 19 16*6
85*38
21 ,io 13 7*82
19-097
54214-5
101*94
22
20*772
13 1042*6
85*93
22 10 15 2-33
19*073
532 2-4102*10
23
84152-95
20-728
13 2 5-4
86*47
23 10 16 56*69
19*048
52149*3102*25
!24
84357-19
20*684
N.12 53 25-0
86-99
24 ^0 18 5o*9oji9-o24
N. 5 ii35*4|io2*39
gitized b
rS
XII.
DECEMBER, 1882.
£1
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Bight
Ascension.
Var.
inio».
Declination.
Var.
inio»°.
O
I
2
3
4
5
6
1
9
10
11
12
*3
H
15
16
*7
18
*9
20
21
22
23
h m s
IO 18 50^90
102044*98
I0 22 38*92
10 24 32*72
102626*40
I028 19*95
Friday
103013*3
1032 6-8
103359*87
103552*95
10 37 45*9*
103938*78
104131*53
104324*18
1045 16*74
1047 9" 20
1049 1-57
105053*85
105246-05
105438*17
10 56 30*21
IO58 22*l8
11 OI4 a o8
2 5-91
II
19 'o^N.
19*002
18-978
18-957
18-936
18-915
18-894
18-874
18856
18-838
18-819
18-801
18783
18-767
18-751
18-736
18*721
18-707
18-693
18 '680
18-668
18-656
18*644
18-633
29.
t w
5 "35*
5 I 20*
4Si 5-
44048-
43031-
4 20 13'
4 955'
3 59 3 s /
34916-
33856-
3 28 35-
31814-
3 752-
25730-
247 8-
23645-
2 26 22-
2T5 59-
2 536-
I55I2-
I44 48-
134 24
1 24 I'
H3 37
4101-39
6io»'53
N,
o
1
2
3
4
5
6
7
8
9
10
11
12
»3
14
;i
17
18
19
20
21
22
23
H
3 57^7
5 49' 37
741-01
9 32*60
11 11 24*13
11 13 15*62
11 15 7-06
11 1658*46
11 1849-83
11 2041*16
11 22 32*46
112423-73
11 26 14*98
II 28 6*20
112957*41
II 31 48*60
113339*78
113530-95
II 3722*12
11 39 13-29
11 41 4-46
114255*64
11 4446*82
11 46 38*02
11 48 29*23
Saturday 30.
18-622 N.
18*612
18 '602
18593
18-585'
18-578
«'S7oN.
8 -564 s.
18-558,
18-553
18-548
i8-543
I8-539;
18-536
'8-533
18-531
18-529
18-528
18-528
18-528
18-529
18530
18-532
18-534!
8'537,S.
I 313
05249
042 25
032 I
21 37
o 11 14
o 051
o 931
19 54
30 17
04039
051 I
1 I 22
I II 43
I 22 3
1 32 23
142 43
153 2
2 3 20
2 I337
2 23 54
2 34 II
24426
2544I
3 4 55
102-67
102-79
102*91
103*02
103*13
103-23
103-32
103-41
103-49
103-57
103-63
103-70
103-75
103-80
103-85
103-88
103-92
103-95
103*97
103-98
103*99
104*00
103*99
Right
Ascension.
Var.
in io".
Declination.
Var.
in io"».
SlJHDAY 31.
h m b
II 4829*23
II 5020*46
II 52 11*71
11 54 2*99
1155 54*29
115745*63
115937*00;
12 I 28*42
12 3 19*87
12 5"-37
12 7 2*92
12 854*52
12 1046*17
12 12 37*88
12 1429*66
12 l62I*50
12 l8 I3'40
12 20 5*38
122157*44
12 23 49*57
12 25 41*78
I2 27 34-07
12 29 26*45
12 31 18*92
8*537 S
8*540
8*544
8*548
8*553
8*559
8-566
8*573
8*579
8-587
8-596
8*604
8-613
8-624
8-635
8*645
8-657
8-670
8-682
8*695
8*708
8-722
8*737
8*753
o / •
3 455
315 8
32521
3 35 3*'
34543"
3 55 5*
461
6!l02'27
8 102*13
101-98
101-83
101*68
101*52
101-34
4 16 8'8 101-17
4 26 i5*3Jiox*oo
4 36 20*1100-82
44625*1 10063
4 56 28-3[ioo-43
5 •? 30*3
S.
5 16 31 • 1
5 26 30*7
5 36 29*0
5 46 26*0
6 6 15
616 8
626 0*3
6 35 50*2
64538*7
65525-7
100-23
100-03
99-82
99- 61
99*39
99* 16
98-93
98-70
98-45
98*20
97-96
97-69
103-98
103-97
103-95
103-93
103-89
103-85
103-82
•7:103-78
•2'l03'72
-3 103*66
•1,103-59
*4Jio3-52
•3103*45
-8iio3*37
*8jio3*28
•21103-18
•o'io3*09
•3'io2*99
•9102-88
•91102-77
•2|i02-66
•8|io2-53
-6|io2-4o
•6 102-27
MOHDAY, JA|T. I, 1883
0I12 33 11-49 18769JS. 7 5 n*o| 97*42
PHASES OF THE MOON.
Dec. 2
10
17
*4
Last Quarter -
New Moon
First Quarter -
Full Moon
h m
2 56*4
3 37-6
4 39'3
3 41*1
Dec, 3
18
3 1
<[ Apogco
([ Perigee
<t Apogee
h
- *3
- 7
- 10
Digitized by
Go
r 2
o
12
DECEMBER, 1882.
XIII.
MEAN TIME.
LUNAR DISTANCES.
i
Star's Name
and
Position.
Noon.
P.L.
of
diff.
m\
P.L.
of
diff.
VP.
P.L.
of
diff.
IX\
P.L.
of
diff.
1
Aldebaran W.
Jupiter W.
Pollux W.
Spica E.
Sun E.
i »
78 19 30
58 20 20
37 10 46
55 16 29
102 17 32
3002
2956
3225
2992
3373
r *
79 49 4i
59 57 29
38 36 26
53 46 6
100 54 45
3010
2964
3218
3001
33?4
Of*
8l 19 41
6l 28 27
40 2 14
5^ 15 54
99 32 10
3019
2972
3213
3009
3393
Of*
82 49 30
62 59 15
41 28 8
50 45 52
98 9 45
3026
2979
3209
3017
3401
2
Aldebaran W.
Jupiter W.
Pollux W.
Spica E.
Sun E.
90 16 24
70 31 7
48 38 30
43 17 59
91 19 56
3058
3010
3198
3049
3437
91 45 25
72 1 7
50 4 41
4i 48 47
89 58 22
3064
3014
3^97
3054
344*
93 H '9
73 31 2
5 1 30 54
40 19 41
88 36 53
3069
3019
3195
3059
3447
94 43 7
75 51
52 57 9
38 50 4i
%j 15 30
3072
3022
3*95
3063
345*
3
Jupiter
Pollux
Regulus
Spica
Sun
W.
w.
w.
E.
E.
82 28 59
60 8 45
23 7 31
x 1 26 42
80 29 38
3034
3187
3209
3<>75
3466
83 58 29
61 35 10
24 33 30
29 58 2
79 8 36
3035
3185
3196
3077
3467
85 27 58
63 1 37
25 59 44
28 29 24
77 47 35
3036
3x82
3184
3077
3468
86 57 26
64 28 8
27 26 12
27 O 46
76 26 35
3035
3179
3>74
3077
3468
4
Pollux
Regulus
Sun
W.
W.
E.
71 41 33
34 4i 17
69 41 25
3163
3^34
3461
73 8 27
36 8 45
68 20 17
3^59
3126
3458
74 35 25
37 36 23
66 59 6
3153
3119
3455
76 2 30
39 4 9
65 37 51
3H9
3112
3451
5
Pollux
Regulus
Sun
W.
W.
E.
83 19 26
46 25 13
58 50 22
3120
3<>74
34*4
84 47 I'
47 53 54
57 28 33
31 14
3067
3418
86 15 4
49 22 44
56 6 37
3107
3<*8
341 1
87 43 5
50 5i 45
54 44 33
3100
3050
3404
6
Pollux
Regulus
Sun
W.
W.
E.
95 5 25
58 19 28
47 5* 1
3061
3005
3363
96 34 23
59 49 35
46 29 2
3<>53
2995
3353
98 3 30
61 19 54
45 5 52
3044
2985
3344
99 3* 48
62 50 z$
43 42 31
3036
*975
3333
7
Regulus
Spica
Sun
W.
W.
E.
70 26 17
16 26 45
36 42 51
2921
2899
3282
71 58 9
17 59 5
35 18 19
2911
2889
3271
73 30 14
19 31 38
33 53 34
2900
2877
3261
75 2 33
21 4 26
32 28 37
2888
2867
3*50
8
Regulus
Spica
Sun
W.
W.
E.
82 47 50
28 52
25 20 40
2831
2810
3197
84 21 38
30 26 15
23 54 27
2819
2798
3188
85 55 41
32 45
22 28 3
2807
2786
3178
87 30
33 35 31
21 1 28
*795
*775
3169
1
Sun - W.
FomalhautE.
a Pegasi E.
10 52 11
6$ 48 19
81 27 11
2988
3U3
2698
12 22 39
64 20 49
79 50 28
*957
3140
2690
13 53 46
62 53 28
78 13 35
2931
3*49
2683
15 25 25
61 26 18
76 36 32
2910
3161
2677
2
Sun W.
FomalhautE.
a Pegasi E.
23 9 21
54 H 48
68 29 17
2838
3*54
2651
24 43
5; 49 43
66 51 31
2826
3282
2647
26 16 54
51 25 11
65 13 40
2816
3315
2645
27 5i 1
1° l l l
63 35 46
2806
335*
2643
3
Sun W.
FomalhautE.
a Pegasi E.
aArietis E.
35 44 37
43 H 17
55 26 6
98 7 39
2764
3624
2649
2470
37 19 52
41 56 9
53 48 17
96 25 43
*757
3703
2653
2463
38 55 16
40 39 25
52 10 33
94 43 37
2750
379*
2658
*457
40 30 50
39 24 J 4
50 32 57
93 * 24
*743
3894
2665
2450
4
Sun
a Pegasi
ol Arietis
Saturn
W.
E.
E.
E.
48 30 45
42 28 10
84 28 18
99 53 48
2713
2731
2426
2360
50 7 7
40 52 12
82 45 21
98 9 16
2708
2752
2422
*355
51 43 36
39 16 41
81 2 17
96 24 37
2704
2778
2418
2351
53 20 xi
37 4i 44
79 '9 8
94 39 52
2699
2807
2414
2346
Digitiz
o
XIV.
DECEMBER, 1882.
21
MEAN TIME.
LUNAR DISTANCES.
1
Star's Name
and
Position.
Midnight.
P.L.
of
diff.
XY\
P.L.
of
diff
XVIII*.
P.L.
of
diff.
XXI*.
P.L.
of
diff.
1
Aldebaran W.
Jupiter W.
Pollux W.
Spica £.
Sun E.
t *
84 19 10
64 29 54
42 54 6
49 16
96 47 30
3034
2986
3206
3025
3409
Off/
85 48 41
66 24
44 20 8
47 46 18
95 25 24
3041
*993
3104
3031
3417
Of*
87 18 3
67 30 46
45 46 13
46 16 43
94 3 27
3047
2999
3202
3038
34*4
1 J
88 47 17 3053
69 1 3005
47 12 20J3199
44 47 1 71 3044
92 41 38 3431
2
Aldebaran W.
Jupiter W.
Pollux W.
Spica E.
Sun E.
96 11 51
76 30 36
54 23 24
37 21 46
85 54 12
3076
3026
3193
3066
3456
97 40 30
78 16
55 49 42
35 52 55
84 32 59
3079
3029
3x92
3069
3459
99 9 5
79 29 53
57 16 1
34 24 7
83 11 49
3081
3031
3190
307a
3462
100 37 38
80 59 27
58 42 22
32 55 23
81 50 42
3083
3033
3188
3074
3464
3
Jupiter
Pollux
Regulus
Spica
Sun
W.
W.
w.
E.
E.
88 26 55
65 54 42
28 52 53
25 32 8
75 5 35
3«>35
3 l 77
3165
3077
3468
89 56 24
67 21 19
30 19 44
24 3 30
73 44 35
3034
3^74
3156
3076
3466
91 25 54
68 47 59
31 46 46
22 34 51
72 23 33
3033
3170
3148
3°74
34^5
92 55 26
70 14 44
33 13 57
21 6 10
71 2 30
303 X
3167
3141
3073
3463
4
Pollux
Regulus
Sun
W.
W.
E.
77 *9 40
40 32 4
64 16 32
3144
3105
3447
78 56 56
42 8
62 55 8
3138
3097
344*
80 24 19
43 28 21
61 33 39
3133
3091
3436
81 51 49
44 56 42
60 12 3
3"7
3083
343i
5
Pollux
Regulus
Sun
W.
W.
E.
89 11 15
52 20 56
53 22 21
3093
3042
3396
9° 39 33
53 50 17
52
3085
3033
3388
92 8 1
55 19 49
50 37 30
3077
3023
3380
93 36 39
56 49 33
49 H 5i
3070
3014
3371
6
Pollux
Regulus
Sun
W.
W.
E.
101 2 16
64 21
42 18 58
3027
2965
33*4
102 31 55
65 52 6
40 55 15
3018
*954
3313
104 1 45
67 23 17
39 3i 19
3009.
*944
3303
105 31 47
68 54 40
38 7 11
3001
2933
3*93
7
Regulus
Spica
Sun
W.
W.
E.
76 35 7
22 37 27
31 3 27
2877
2856
3*39
78 7 56
24 10 43
29 38 4
2866
2844
3128
79 40 59
25 44 14
28 12 28
2854
2833
3218
81 14 17
27 17 59
26 46 40
2842
2821
3208
8
Regulus
Spica
Sun
W.
W.
E.
89 4 34
35 ™ 32
19 34 42
2784
2763
3162
90 39 23
36 45 48
18 7 48
2772
2751
3*57
92 14 27
38 21 20
16 40 47
2760
2740
3*5*
93 49 47
39 57 7
15 13 40
*749
2728
3150
11
Sun W.
FoinalhautE.
a Pegasi E.
16 57 31
59 59 22
74 59 21
2892
3X74
2670
18 30
58 32 42
73 22
2876
3190
2664
20 2 49
57 6 21
71 44 32
2862
3*08
2660
21 35 57
55 40 21
70 6 58
2849
3230
2655
12
Sun W.
Fomalhaut E.
a Pegasi E.
29 25 21
48 38 5
61 57 50
2797
3394
2643
30 59 53
47 15 4i
60 19 53
2788
3441
2643
32 34 37
45 54 "
58 41 56
2780
3494
2643
34 9 3i
44 33 4o
57 3 59
277X
3555
2645
13
Sun W.
Fomalhaut E.
a. Pegasi E.
a Arietis E.
42 6 33
38 10 48
48 55 3i
91 19 1
*737
4009
2674
*445
43 4* *4
36 59 17
47 18 16
89 36 31
2731
4142
2685
2440
45 18 23
35 49 56
45 4i 16
87 53 54
2724
4*95
2698
2436
46 54 31
34 42 59
44 4 33
86 11 10
2719
4471
2713
2430
14
Sun
a Pegasi
a Arietis
Saturn
W.
E.
E.
E.
54 56 53
36 7 25
77 35 54
92 55
2694
2841
2411
2343
56 33 4i
34 33 5i
75 52 35
91 10 3
2689
2882
2408
2340
58 10 35
33 1 9
74 9 12
89 25 1
2685
2931
2405
*335
59 47 35
31 29 29
72 25 45
87 39 52
2681
2988
2402
2332
Digitized by "
214
DECEMBER, 1882.
xv.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
PX.
P.L.
P.L.
t
and
Noon.
of
U1K
of
VF.
of
IX*.
of
Position.
diff.
diff.
diff.
diff.
1 n
r »
t *
1 n
15
Son W.
6l 24 40
2677
63 I 50
2673
64 39 6
2670
66 16 26
2667
a Arietis £•
70 42 13
2400
68 58 39 2398
67 15 2
2396
65 31 22
*395
Saturn E.
85 54 39
2328
84 9-21
2325
82 23 58
100 18 27
2322
80 38 30
23x9
AldebaranE.
103 47 54
«354
102 3 13
2350
*347
98 33 36
*344
16
Sun W.
74 24 1*
265s
76 1 57
2649
77 39 45
46 48 53
2646
79 17 37
2643
a Aquilae W.
43 57 4
56 52 41
3241
45 22 25
3x84
3*33
48 16 23
3087
a Arietis E.
*393
55 8 56
2394
53 25 12
*395
51 41 3°
*397
Saturn E.
71 50 9
89 48 14
2306
70 4 18
88 2 58
2303
68 18 23
86 17 38
2301
66 32 25
2300
Aldebaran E.
2330
2327
2325
84 32 15
2323
17
Sun W.
87 27 42
2634
89 5 5i
2632
90 44 2
2630
92 22 16
2629
1
a Aquilte W.
55 46 20
2914
57 18 21
2889
58 50 54
2866
60 23 56
2845
a Arietis E.
43 3 56
2415
41 20 43
2422
39 37 4o
2430
37 54 48
H39
Saturn E.
57 4i 54
2290
SS 55 4o
2289
54 9 25
2288
52 23 8
2287
Aldebaran E.
75 44 37
23x3
73 58 57
23x4
72 13 l6
89 57 28
231X
70 27 33
88 10 35
2310
1
Jupiter E.
93 3 1 7
2267
91 44 i 9
2265
2264
2262
!i8
Sun W.
100 33 47
2624
102 12 10
2623
IO3 50 33
71 25 46
2623
105 28 56
2623
a Aquita W.
68 15 8
2766
69 50 20
2756
*745
73 1 26
46 15 36
2736
FomalhautW.
42 9 19
3484
43 30 1
3407
44 52 9
3338
3*77
Saturn E.
43 3 1 23
2283
41 44 59
2283
39 58 35
2284
38 12 12
2284
Aldebaran E.
61 38 35
2306
59 52 44
2306
58 6 54
2306
56 21 3
2306
Jupiter E.
79 l $ 42
2257
77 28 39
2256
75 4i 35
2256
73 54 3'
2255
19
Sun W.
113 40 55
2624
115 10 17
82 38 44
2625
116 57 38
2626
118 SS 5*
2628
a Aquilae W.
81 2 15
2708
2705
84 15 18
2703
85 5 1 54 *7oi
FomalhautW.
53 28 32
3055
54 57 37
3022
56 27 22
2993
57 57 43|*968
a Fegasi W.
33 '9 48
2810
34 54 3
2767
36 29 15
2729
38 5 16 2697
j
Aldebaran E.
47 31 58
2310
45 46 14
63 12 1
88 19 46
2311
44 31
2314
42 14 52
23x6
Jupiter E.
64 59 5
2256
2257
61 24 58
2258
59 37 56
2259
1
Pollux E.
90 3 56
*375
*377
86 35 38
2378
84 51 3 1
2379
20
Sun W.
126 47 2
2638
128 25 5
2641
130 3 5
68 42 30
2644
131 41
2648
Fomalhaut W.
65 36 31
2875
67 9 22
2862
2852
70 15 51
2842
a Fegasi W.
46 14 25
2590
47 53 34
*577
49 33 1
2565
51 12 44
*555
Aldebaran E.
33 27 4o
*335
31 42 32
2341
29 57 32
2348
28 12 42
*355
Jupiter E.
50 43 18
2268
48 56 31
2270
47 9 48
2274
45 23 10
2277
Pollux E.
76 11 35
2391
74 27 47
2395
72 44 5
2399
71 29
2403
21
FomalhautW.
78 5 4
2816
79 39 «
28x5
81 13 19
2815
82 47 28
28x6
a Pegasi W.
59 34 3
36 31 16
62 24 21
2527
61 14 39
2524
62 55 19
2522
64 36 1
2522
Jupiter E.
2298
34 45 13
60 41 35
2303
32 59 18
2309
31 13 32
2315
Pollux E.
H34
*443
58 50 1
95 18 51
2451
57 l6 39
2461
Regulus E.
98 48 29
2346
97 3 37
2350
*355
93 34 "
2360
22
FomalhautW.
90 37 22
2838
92 11 1
2845
93 44 30
76 20 14
2854
95 17 48
2864
a Pegasi W.
72 59 19
2531
74 39 49
2535
2540
78 32
*545
a Arietis W.
29 22 55
48 48 35
2572
31 2 29
*559
32 42 20
*549
34 22 25
2542
Pollux E.
2522
47 7 52
*S37
45 27 31
81 25 13
»554
43 47 33
2573
Regulus E.
84 52 46
2389
83 8 55
*395
2402
79 4i 4i
24x0
23
a Pegasi W.
86 19 57
2580
87 59 20
2588
89 38 31
2598
91 17 29
2608
a Arietis W.
42 44 18 2536
44 24 41 2538
46 5 1 2542
47 45 I*' ^546
o
XVI.
DECEMBER, 1882.
ai 5
MEAN TIME.
LUNAR DISTANCES.
. Star's Name
P.L.
P.L.
P.L.
P.L.
S\ an*
Midnight.
of
XV*.
of
XVIII*.
of
XXI*.
of
M Position.
diff.
diff.
diff.
diff.
O 1 H
O 9 *
1 n
r it
15 Sun W.
67 53 50
2663
69 31 20
2660
71 8 53
2657
72 46 31
2654
a Arietis E.
63 47 40
78 52 58
*394
62 3 s^
2393
60 20 12
2392
58 36 26
2393
Saturn E.
2316
77 7 22
2313
75 21 41
231X
73 35 57
2308
Aldebaran E.
96 48 40
2341
95 3 4o
*337
93 18 35
*335
91 33 26
2333
16 Son W.
80 55 33
2642
82 33 31
2640
84 11 32
2638
85 49 36
2636
a Aquilee W.
49 44 49
3o«
51 14 6
3008
52 44 9
*974
54 14 55
2942
a Arietis E.
49 57 5i
2399
48 14 15
2402
46 30 43
2405
44 47 16
2410
Saturn E.
64 46 25
2297
63 2]
2295
61 14 14
2293
59 28 5
2292
Aldebaran E.
82 46 49
2321
8l I 20
2319
79 15 48
*3*7
77 30 14
2315
17 Sun W.
94 31
61 57 26
2628
95 38 48
63 31 20
2627
97 17 ^
2626
98 55 *6
2625
« Aquilffl W.
2826
2809
65 5 36
2793
66 40 13
3i 5 58
2779
a Arietis E.
36 12 9
2450
34 29 45
2464
32 47 41
2479
2498
Saturn E.
50 36 49
2286
48 50 29
66 56 1
2285
47 4 8
,"85
45 17 46
63 24 24
2284
Aldebaran E.
68 41 48
2309
2308
65 10 13
2307
2307
Jupiter E.
86 23 40
2261
84 3 6 43
2260
82 49 44
2259
81 2 44
2258
18 Sun W.
107 7 20
2623
108 45 44
2623
no 24 8
2623
112 2 32
2623
a Aquilae W.
74 37 18
2728
76 13 20
2722
77 49 31
2716
79 25 50
2711
Fomalhaut W.
47 40 14
3223
49 5 56
3^74
50 3* 3 6
3129
52 10
3090
Saturn E.
36 25 49
2285
34 39 27
2285
32 53 6
2287
31 6 48
2288
Aldebaran E.
54 35 "
2306
52 49 22
2307
5i 3 33
2308
49 17 45
2309
Jupiter E.
72 7 25
2255
70 20 20
2255
68 33 15
2255
66 46 10
2255
19 Sun W.
120 14 15
2629
121 52 31
2631
123 30 44
2633
125 8 54
2635
a Aquil® W.
87 28 31
2701
89 5 9
2703
90 41 45
2705
92 18 19
64 3 58
2707
Fomalhaut W.
59 28 36
*945
60 59 58
2924
62 31 46
2905
2889
a Pegasi W.
39 42
2669
41 19 22
2645
42 57 16
36 58 17
2624
44 35 38
2606
Aldebaran E.
40 29 16
2319
38 43 45
2322
2326
35 '2 56
2330
Jupiter E.
57 50 56
2260
56 3 58
2262
54 17 2
2264
52 3° 9
2265
Pollux E.
83 7 26
2380
81 23 23
2382
79 39 23
2385
77 55 27
2388
20 Sun W.
133 18 50
2652
134 56 35
2656
136 34 14
2660
138 11 47
2665
Fomalhaut W.
7i 49 *5
*»34
73 23 9
2828
7 t 57 I
56 13 6
2822
76 31
2818
a Pegasi W.
52 52 40
*547
54 32 48
2540
»535
57 53 3i
2530
Aldebaran E.
26 28 5
43 35 3 S
69 16 59
2364
24 43 37
2375
22 59 26
2388
21 15 34
38 17 26
2403
Jupiter E.
2280
41 50 7
2283
40 3 43
65 50 22
2288
2293
Pollux E.
2409
67 33 37
2414
2421
64 7 17
2427
21 Fomalhaut W.
84 21 35
2818
85 55 40
282 X
87 20 40
69 38 6
2825
89 3 35
71 18 44
2831
a Pegasi W.
66 16 43
2522
67 57 25
2523
2525
2528
Jupiter E.
Pollux E.
29 27 ss
2323
27 42 29
2331
25 57 H
2340
24 12 12
*349
55 34 31
2471
53 52 37
2482
11 I0 5 ?
2494
50 29 38
2507
Regulus E.
91 49 39
2365
90 5 14
2370
88 20 56
2376
86 36 47
2382
22 FomalhautW.
96 50 53
2875
98 23 44
2887
99 56 20
83 40
2901
101 28 38
2914
a Pegasi W.
79 40 43
2551
81 20 46
*S57
2564
84 40 24
2572
a Arietis W.
36 2 39
*538
37 43
2535
39 23 25
»533
41 3 52
*534
Pollux E.
42 8 1
*593
40 28 56
2615
38 50 22
2640
37 12 21
2667
Regulus E.
77 58 20
2418
76 15 11
2425
74 32 12
»434
72 49 26
H43
23 * Pegasi W.
1 % Arietis W.
92 56 13
2618
94 34 44
2629
96 12 59
2640
97 5i
2652
49 *5 25 *55*
51 5 26 2558
52 45 19 2565^
54 25 2 2572
o
XVII.
XVIII.
DECEMBER, 1882.
MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L.
P.L.
P.L.
P.L.
i
and
Position.
Midnight*
of
diff.
XV*.
of
diff.
XVIIl h .
of
diff.
XXP.
of
ditX
t *
I *
1 n
/ It
*3
Saturn W.
33 57 43
2462
35 39 50
2471
37 " 44
2481
39 3 *4
2491
Pollux E.
29 12 54
2863
27 39 47
2920
26 7 53
2987
24 37 24
3066
Regulus E.
64 18 52
2492
62 37 28
2503
60 56 19
2514
59 15 26
2526
24
a Arietis W.
62 40 51
2618
64 TO 22
49 * l 9
2627
65 57 40
2638
67 35 44
2649
Saturn W.
47 28 8
*545
2557
50 48 13
2568
52 27 52
2581
Aldebaran W.
29 *3 '3
2593
30 52 17
2602
32 31 10
2611
34 9 50
2620
1
Regulus E.
50 55 10
2589
49 16
2603
47 37 9
2617
45 58 37
2631
*5
a Arietis W.
75 42 16
2707
77 18 46
2719
78 55 1
2731
80 30 59
2744
Saturn W.
60 41 52
2643
02 19 49
2655
63 57 29
2669
65 34 5i
2681 '
Aldebaran W.
42 19 45
^S 3* 35
2674
43 57
2686
45 33 58
2698
47 10 41
2710
Jupiter W.
2633
27 16 45
2643
28 54 41
U 3 S ii
2654
30 32 22
2665
Regulus E.
37 5i
2710
56 14 34
89 46 1
2728
2746
53 * 5 2 |*764
86 31 29 2693
Spica E.
91 23 43
2654
2666
2680
26
a Arietis W.
88 26 39
2808
90 56
2821
91 34 56
76 48 23
2834
93 8 40
2*47
Saturn W.
73 37 23
2747
75 13 1
*759
2772
78 23 27
2785
Aldebaran W.
55 I0 IX
38 36 58
2772
56 45 16
2784
58 20 5
2797
59 54 37
2809
Jupiter W.
2725
40 13 5
23 38 33
76 54 49
2736
41 48 57
2749
43 H 3* 2761
Regulus E.
25 ix 19
2879
2909
22 6 26
2942
20 35 0*2980
Spica E.
78 30 12
2758
2771
75 19 43
2783
73 44 53
2796
27
Saturn W.
86 14 43
2846
87 48 11
2859
89 21 22
2870
90 54 19
2882
Aldebaran W.
67 43 20
2870
69 16 18
2881
70 49 1
2892
72 21 30 2904
Jupiter W.
51 18 31
2820
52 52 33
2832
54 26 19
2843
55 59 5 1
2855
Pollux W.
27 H 42
3268
28 39 31
3241
30 4 5i
3220
31 30 37 3203
Spica E.
65 54 53
2859
64 21 41
2870
62 48 44
2881
61 16 2*2894
28
Saturn W.
98 35 28
80 22
2936
100 7 1
2946
101 38 22
2955
103 9 31
2965
Aldebaran W.
2957
81 31 29
2967
83 2 23
66 48 8
2976
84.33 6
2985
Jupiter W.
63 44
38 43 12
53 36 6
2907
65 16 10
2916
2926
68 19 54
2935
Pollux W.
3161
40 10 9
3157
4i 37 9
3156
43 4 «
3'54
Spica E.
2947
5* 4 47
2957
50 33 41
2966
49 2 46
2976
Sun E.
128 27 56
334*
127 4 32
335i
125 41 20
3361
124 18 19
337^
29
Aldebaran W.
9* 3 55
75 5° *
3026
93 33 35
3°33
95 3 7
3040
96 32 31
3046
Jupiter W.
2976
77 26 44
2982
78 57 20
2989
80 27 47
2995
Pollux W.
50 19 29
41 30 58
3157
51 46 29
3158
53 13 »8
58 31 23
83 46 7
3159
54 40 26
3162
Spica E.
3017
40 1 6
85 14 46
3024
3030
37 1 48
3036
Venus E.
86 43 35
3068
3076
3084
82 17 38
3093
Sun E.
117 25 56
34*4
116 3 55
3422
C14 42 4
34*9
113 20 20
3436
30
Jupiter W.
87 58 10
61 54 48
3018
89 28 9
3022
90 57 54
3025
92 27 36
3027
Pollux W.
3168
63 21 36
3168
64 48 24
3167
66 15 11
3168
Regulus W.
24 52 53
3172
26 19 36
28 6 37
3164
27 46 28
3157
29 13 29
3152 1
Spica E.
29 35 35
3060
3064
26 37 44
3067
25 8 54
3069
Venus E.
74 57 33
3126
73 29 55
3132
72 2 24
3136
70 34 58
3141
Sun E.
106 33 22
3462
I05 12 15
3465
103 51 12
3468
102 30 12
347^
131
Pollux W.
73 *9 9
36 29 57
63 19
3165
74 5 6 °
3* 6 3
76 22 53
3161
77 49 49
3159
i
Regulus W.
3130
37 57 3°
3126
39 25 8 3122
40 52 51 3118
Venus E.
3156
61 51 58 3157
60 24 57:3158
58 57 57' 3158
Sun E.
95 45 49 3477
94 2 4 59' 3476
93 4 8 3475 9 1 43 lb 3473
o
2 1 8 SUN'S CO-ORDINATES, &c, 1882.
Mean
Time.
x,
TVtuEq'ofDato.
Noon, MidwiglU.
Red. to
M.Eq«
of
Jan. 1.
Noon.
2V** Eq* of Date.
Noon. Midnight.
Bed. to
M.Eq*
of
Jan. 1.
Noon.
z,
2VwEq«of Date.
Noon. Midnight.
Bed. to
M.Eq-
of
Jan. 1.
Noon.
f
Noon,
Jan. 1
2
3
4
5
6
7
8
9
10
11
12
*3
IS
16
17
18
19
20
21
22
*3
*4
«S
26
27
28
29
30
3i
Feb. 1
2
3
4
5
6
7
8
9
10 o
11
12
13
H
+
* 1884063
•2055388
•2226072
'2396065
•2565312
•2733767
'2901380
•3068100
•3233876
•3398657
•3562398
•3725048
•3886553
•4046863
•4205930
•4363702
•4520125
•4675H3
•4828706
•4980756
•5131247
•5280129
•54^7354
•5572876
•5716654
•5858645
•5998811
•6137109
•6273504
•6407954
•6540421
•6670869
•6799261
•6925560
•7049731
•7171736
•7291544
•7409 1 17
•7524426
•7637433
•7748104
•7856402
•7962298
•8065754
•8166737
0*8265214
+
1969803
2 1408 14
2311159
2480785
2649642
2817683
2984855
3151109
3316394
3480661
3643863
3805947
3966860
4126556
4284981
4442086
4597813
47521 11
4904923
5056200
5205892
535395*
5500331
5644986
5787876
5928959
6068196
6205548
6340975
6474438
6605900
6735324
6862675
6987914
71 1 1007
7231917
7350612
7467057
7581220
7693063
7802551
7909652
8oi4333
8116557
82 1629 1
8313502
-767
775
784
792
799
-805
808
810
811
810
-808
806
805
805
806
-808
812
815
817
817
-814
809
802
794
787
-781
776
772
769
766
-762
757
75 *
743
734
-724
712
699
687
675
-663
652
641
631
621
0*8853018
8820883
8786014
8748424
8708124
0*8665127
8619445
8571086
8520073
8466412
0*8410115
•8351204
* 8289692
•8225594
'8158926
0*8089712
8017965
79437"
7866970
7787773
0*7706146
•7622120
•75357*5
•744699*
•7355954
0*7262641
•7167086
•7069322
•6969383
•6867302
©•6763111
•6656843
•6548530
•6438208
•6325910
1*6211667
•60955x5
•597748s
•5857614
•5735937
0*5612485
•5487299
•5360412
•5231863
•5101687
—610 0*4969929
'8837292
•8*03789
•8767558
•8728612
•868696
'8642620
•8595598
•8545910
•8493572
•8438591
'8380985
•8320772
•8257964
•8192580
-8124636
•8054153
•7981150
•7905650
•7827676
•7747261
•7664431
•7579216
•7491648
•7401759
•7309580
•7215141
•71 1 8478
•7019623
•6918608
•6815467
•6710235
'6602939
•6493617
•6382303
•6269029
•6153828
•6036733
•5917778
•5796999
•5674430
•5550107
•5424066
•5296342
•5166975
•5036003
,0-4903471
- 61
76
9i
107
1*4
-140
»57
173
189
204
-219
*34
249
264
281
-299
3»7
336
356
375
-393
410
426
441
456
-47*
488
506
5*5
545
-565
585
604
622
639
-655
670
684
698
712
-7*7
74*
759
777
796
-815
0-3840835
• 3826899
•3811776
•379547S
•377799*5
0*3759345
•3739531
•3718554
•3696422
•3673140
0-3648715
3623152
3S96459
3568643
3539710
0*3509674
•3478S40
'3446318
•3413021
• 3378660
0*3343*46
•3306793
•3269314
•3230820
•3191327
•3150848
•3109397
• 3066987
•3023637
•»979354
0*2934157
•2888059
•2841073
•2793215
"*744497
0-2694934
•2644542
# *593333
•*54i3*4
•2488530
0*2434964
'2380645
•*3*5587
'2269809
'2213327
0*2156158
•3834015
'3819486
•3803773
* 3786882
•3768816
>'3749583
•3729188
•3707632
•3684924
•3661069
>• 3636076
•3609946
•3582690
•3554315
•3524830
►•3494*44
•3462564
•34*9803
•3395973
•3361083
►•3325148
•3288181
•3250193
•3211197
•3171210
•3130244
•3088311
•3045429
•3001611
'2956869
•2911220
•2864675
•2817252
•2768963
•2719821
• 2669840
•2619038
•2567427
•2515023
•2461843
•2407897
•2353207
•2297787
•2241656
•2184827
0*2127323
-*3S
241
247
*53
258
-262
266
271
*75
280
-285
290
296
303
510
-317
3*4
33o
335
340
-343
347
35i
355
360
-365
37*
378
384
391
-397
402
406
410
413
-416
419
422
426
43°
"434
439
445
450
455
-460
230*7'
tr
2 52
2'50
249
251
*53
2*56
2' 60
2-6 3
2-6 5
2*66
2*67
2*66
2*64
261
*'57
*'S5
*54
2*56
2* 60
2*6 4
2*69
2*73
2*76
2-76
**75
2-73
2*69
2-66
2*65
2*64
2-66
2*69
2-73
2-77
2'8l
2-85
2*88
2*90
2*89
2*88
286
2*83
2*81
2 a 8o
2-81
2-83
Digitized by
=
__
O
SUN'S CO-ORDINATES, &c, 1882. 21c
Mean
Time.
x,
True Bq« of Date.
Noon. J Midnight.
Bed. to
M.Eq 1
of
Jan. x.
JVbon.
2Vu0Eq s ofDato.
tfocm. Midnight.
Bed. to
M.Eq*
of
Jan. x.
A r O0f».
z,
ZVudBq'ofDate.
Bed. to
M.Eq 1
of
Jan. x.
Noon.
Midnight.
Noon,
I
Noon.
I
Feb.i6|o
! I7
; 18
I "
ao
I "
I 23
*4
*5
26
*7
28
Mar. 1
2
3
4
5
6
7
8
9
10
11
12
ij
»5
16
17
18
19
21
22
23
*4
*5
26
*7
28
29
30
3«
Apr. 1
+
8361150
•8454512
•8545267
•86333*0
•8718856
•8801636
•8881712
•8959063
•9033671
•9105519
•9174590
•9240866
•9304336
•9364983
•9422791
'9477753
•9529851
•9579073
•962541 1
•9668851
•9709387
•9747002
•9781689
•9813434
•9842234
•9868075
•9890945
•9910839
•9927747
•9941661
•9952584
•9960507
•9965427
•9967352
•9966279
•9962223
•9955182
•9945170
•9932195
•9916268
•9897395
•9875589
•9850868
•9823234
•9792705
2 0*9759291
+
8408155
8500218
8589660
8676457
8760583
8842013
8920730
899671 1
9069941
9140403
9208078
9«7«953
9335014
9394*4*
9450629
950416
9554822
9602603
9647494
9689483
9728560
9764712
9797930
9828203
9855526
9879882
9901265
9919667
993507 8
9947498
9956921
9963342
9966765
9967189
9964624
9959074
9950547
9939053
9924600
9907198
9886858
9863592
9837414
9808330
9776358
9741507
-598
585
570
553
536
-5*9
502
486
470
455
-439
4*4
408
391
373
-354
335
3X5
295
275
-254
234
214
194
174
-154
U4
"3
92
70
- 48
26
- 4
+ »7
39
+ 61
84
107
130
153
+ 177
200
223
246
269
+ 292
0*4836634
•4701844
•4565605
•4427962
•4288963
0-4148654
•4007081
•3864293
•3720336
•3575258
0*3429101
•3281919
•3i3375o
•2984644
•2834643
0*2683796
•2532144
•2379731
•2226601
'2072796
0*1918364
•1763345
•1607783
•1451723
•1295212
0-1138293
•0981017
•0823430
•0665580
•0507520
0*0349302
•0190975
•0032590
+
•0125802
•0284153
0*0442410
•0600523
•0758444
•0916124
•1073519
0*1230578
•1387258
•1543515
•1699303
•1854582
o* 2009305
4769423
4633903
4496956
4358630
4218970
4078022
3935836
3792457
3*547934
35023 1 1
3355^6
3207954
3059312
2909752
2759322
2608068
2456029
2303253
2149780
1995656
1840925
1685629
1529812
1373522
12 1 6800
1059697
0902259
0744533
0586573
0428428
0270148
0111786
+
0046608
0204987
0363297
0521488
06795 n
0837317
0994861
1 152094
1308969
1465443
1 62 147 1
1777010
1932015
2086447
- 833
850
864
875
886
- 896
907
919
933
948
- 9 6 3
979
995
1009
1022
-1033
1042
1050
1057
1063
-1070
1077
1085
1095
1 106
-1118
1 130
1141
1 149
"54
-1159
1161
1 162
1 164
1 167
•1172
1 178
1 186
1 193
1200
■1205
1209
1211
1211
1210
-1208
0*2098325
•2039845
•1980738
•1921024
'1860722
o* 1799853
•1738437
•1676494
•1614045
•155 1 109
0*1487706
'1423856
•1359578
•1294894
•1229820
0*1164377
•1098584
• 1032459
• 0966022
* 0899290
0*0832285
0765025
0697529
0629817
0561907
0*0493821
•0425580
•0357207
•0288720
•0220145
0-0151502
0082814
0014103
+
005461 1
0123304
0*0191956
•0260546
•0329053
•0397456
•0465735
0*0533872
* 0601 844
•0669633
•0737220
•0804588
0*0871716
0*2069165
•2010368
•1950956
•1890945
•1^30358
0*1769212
• 1707531
; 1645331
•1582637
•15 19465
0-1455836
1391769
1327286
1262404
"97143
0*1131523
* 1065562
'0999280
•0932690
•0865820
0*0798686
•0731305
•0663698
•0595885
•0527884
0*0459718
•0391409
•0322976
•0254442
•0185830
0*0117163
0048460
+
0020255
•0088962
•0157637
0*0226260
'0294812
•0363268
•043 161 2
•0499822
0*0567880
•0635763
•0703454
•0770933
•0838183
0*0905186
-464
467
468
469
471
-473
475
478
482
486
-490
494
497
499
501
-503
503
503
502
502
-502
503
504
505
507
-509
511
5'2
512
511
-510
508
505
502
501
-499
499
499
498
498
■497
495
493
490
486
-482
23°27'
H \
12*87
12*92
12-97
13*01
13-03
13*02
12-99
12*96
12*92
12*90
12*89
12*89
12*91
12*94
12-97
13*01
13*04
13*06
13*07
13*06
13-04
13-01
12-97
12-93
12*91
12*90
12-90
12*93
12*96
13*00
13-03
13-04
13*02
12-98
12*94
12*89
12*84
12* 80
12*78
12*78
12*79
12-81
12*83
12-84
12-85
12-85
Digitized by
"
O
22o SUN'S CO-ORDINATES, &c, 1882.
Apr. 3
4
5
6
7
8
9
10
11
12
13
IS
16
^7
18
19
20
21
22
23
*4
*5
26
*7
28
29
30
May 1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
*7
18
• •9723007
•9683865
'9641878
•9597060
•9549422
0-9498983
9445750
9389741
9330972
9269460
0*9205217
'9138266
•9068625
'8996310
•8921351
0-8843767
•8763592
•8680846
•8595567
•8507778
. -8417519
•8324815
-8229704
'8132213
•8032380
0-7930231
•7825804
•7719127
•7610233
•7499159
0-7385931
•7270583
•7153148
•7033656
•6912x43
• •6788638
•6663178
•6535796
•6406526
•6275407
0-6142470
•6007755
•5871304
•5733157
•5593355
0-5451946
0-9703792
•9663226
•96x9822
•9573592
•95H55I
0-9472714
-94x8091
•9360700
•9300558
•9237678
0*9172078
•9103780
•9032799
•8959159
•8882885
0*8804002
•8722538
•8638521
•8551983
•8462955
0*8371470
•8277558
-8181253
•8082587
•7981592
0*7878300
•777*744
•7664955
•7554967
•7442812
0*7328520
•7212124
•7093657
•6973150
•6850637
0-6726150
•6599725
•6471395
•6341195
'6209163
0-6075332
•5939744
•5802439
•5663460
•5522848
0-5380652
+ 3140
337
360
383
407
+ 43i
456
481
506
53i
+ 555
579
60 1
623
645
+ 667
690
715
740
766
+ 792
818
843
867
890
+ 912
933
953
974
996
+ xoi8
1041
xo66
1092
1x18
+ X143
1168
1191
X2I2
I23I
+ 1250
1268
I287
X307
1328
+ 1351
2163434
2316927
2469742
2621839
•2773175
•2923709
•30734OO
'3222202
•3370075
•351697O
•3662848
•3807662
•3951366
•40939X8
•4235272
•4375385
*45I42X6
•4651719
•4787854
•4922582
•5055864
•5187660
•5317940
' 5446660
•557379*
•56993OI
•58*3155
•59453*3
•6065776
•6l84479
'63OX4XI
•6416534
•6529822
•6641245
•6750772
•6858375
•696402O
•7067677
•7x69315
•7268908
•7366423
•7461826
•75550891
•7646186!
•7735087|
•7821766!
2240263
2393422
2545883
2697605
2848545
2998663
3147915
3296257
3443648
3590039
3735391
3879656
40227J9
4X64748
4305487
4444964
4583U7
4719960
4855396
4989407
5I2I95I
5252992
5382497
55X0428
5636752
576x437
5884453
6005767
6125348
6243x69
635920O
6473409
6585768
6696248
6804817
69IX444
7016099
7XI8750
72I937O
73x7928
7414390
7508727
76009I I
7690912
7778706
7864261
— 1205
1203
1201
I20O
1201
— 1203
1205
1207
1208
1208
— 1205
I200
1 193
II85
1177
— IX7I
xx66
1x63
xi6o
"57
-1x54
1150
"45
X138
1 128
— xix8
1107
1095
1083
1072
— 1062
1053
1045
1037
1028
— X0X9
1008
995
980
964
— 948
93*
916
901
887
— 873
0*0938588
1005x84
107x486
1x37479
1203x41
0*1268455
1333403
1397966
1462125
1525860
1589151
1651979
I7M3**
I 776 1 64
1837484
0*1898263
•1958486
•2018133
•2077186
•2135628
0*2x93446
•2250621
•2307x39
•2362981
•24x8136
0*2472586
'2526322
•2579327
•2631585
•2683088
0*2733821
•2783771
•2832925
•2881271
•2928793
o- *975479
•302 13 1 7
'3066291
•3110387
•3153592
0*3195896
•3237280
•3277732
•3317*44
•3355803
0*3393397
>• 0971922
•1038373
•1 104523
•" 70354
•1*35844
►•1300977
•x 365734
• 1430098
•1494045
' 1557563
(•1620625
•1683212
•1745307
•1806890
•1867943
>* 1928446
•1988383
•2047735
•2106484
•2164616
• •2222114
•2278963
•*335i45
•2390645
•2445450
>'*499545
•2552917
•2605550
•2657433
•2708552
• •2758895
• 2808449
•2857200
•2905x37
•2952241
>• 2998506
•3043913
•3088450
•3132102
•3174858
►•3216704
•3257623
'3297606
•3336644
•33747*i
0*34x1831
Digitized by
OXG<
to
I*
Q*
l"S
M
$&
u
Noon.
*3°*7'
m
■477
12*82
47*
l*- 7 8
468
1274 '
464
1268
460
12-62 |
•456
I2-S7
453
i**54 |
45i
I2' 5 2
448
12*51 !
444
x*-5*
•440
12-55 '
435
12-56
4*9
12-56 |
422
12-54
415
12-50
■407
I
12-44
400
X238
394
12-32
388
12*27
382
12*23
•377
12-21
37*
12*20
367
I2*20
361
I2'2X
354
X2*22
•347
12*21
338
12*20
3*9
I2*l8
320
X2*I 4
311
12*09
■301
12*03
292
ii'97
283
11-91
*75
11-87
268
11*84
-260
rx-82
*53
11-83
*45
11-84
236
xx-8 5
227
ix-8 5
■217
11-84
205
ix*8o
194
X175
182
ix*69
170
11-62
•159
11-56
SUN'S CO-ORDINATES, &c, 1882. 22
Mean
Time.
x,
True Eq» of Date.
Noon, J Midnight.
Rod. to
M.Eq*
of
Jan. x.
Noon.
Y,
True Eq* of Date.
Noon.
Midnight
Red. to
M.Eq'
of
Jan. 1.
z,
ZVtM Eq* of Date.
Noon. \ Noon.
Midnight.
Red. to
M.Eq*
oP
Jan. 1.
Noon.
May 19
10
si
ta
*3
*4
*5
16
27
28
•9
30
3*
June 1
3
4
5
6
7
8
9
10
11
ia
13
14
15
16
17
18
«9
to
ai
•3
H
*S
16
*7
28
*9
30
July 1
2
+
0-5308973
•5164483
'5018524
'4871 140
•4722379
•4572287
• 44*0905
•4268282
•41 14460
•395948s
►•3803398
•3646246
• 3488070
•3328912
•3168814
0-3007819
•2845973
•2683318
•2519893
•2355746
0*2190919
•2025456
•1859402
• 1692803
•1525711
10*1358172
•1x90238
•102x960
•0853390
•0684581
•0515584
•0346451
•017723a
•0007978
'0161265
0-0330447
•0499520
- 0668438
•0837153
• 1 005622
|o- 1 173799
•1341639
•1509099
•1676133
• 1842698
0*2008750
+
•5236915
'5091684
•4945007
•4796988
•4647497
•4496754
•4344740
•4191518
•40371 14
•3881577
•37*4953
•3567283
•3408611
•3248978
' 3088425
•2927000
•2764744
'2601698
•2437907
•2273414
•2108264
• 1942500
•1776167
•1609316
•1441995
•1274251
•1106139
•0937708
•0769012
•0600102
• 0431031
•0261849
•0092607
•0076649
•0245867
•0415001
•0584001
• 0752824
•0921422
•1089750
•1257764
•1425419
•1592672
•1759477
•1925791
•2091570
+ 1376
1400
1424
1446
1467
+ 1486
1504
1520
1535
1550
+ 1566
1582
1599
1619
1639
+ 1660
1681
1700
1717
1731
+ 1743
1753
1762
1772
1783
+ 1797
1811
1827
1842
1857
+ 1871
1882
1891
1898
1903
+ 1907
19x0
1914
1918
1923
+ 1929
1936
1944
1952
1958
+ 1962
+
•7906195
•7988355
•8068222
•8145776
' 8220992
•8293858
•8364356
•8432469
•8498182
•8561482
'8622351
•8680784
•8736759
•8790271
•8841306
• 8889844
•8935888
•8979412
•9020407
•9058866
•9094768
'9128x02
•9158860
'9187028
•9212595
"9*35549
•9255883
•9273592
'9288667
•9301107
'9310910
'9318073
•9322598
•9324487
•93*3743
•9320369
•9314370
•9305748
•9294506
•9280655
•9264205
•9245156
-9223520
•9199303
•9172513
•9143152
'7947561
•8028577
•8107291
•8183678
•8257721
•8329404
•8398712
• 8465627
•8530136
•8592221
'8651874
' 8709080
'8763824
'88x6100
•8865887
'8913180
'8957966
•9000226
•9039955
•9077137
•9111757
•9143804
•9173269
•9200137
•9224400
•9246044
•9265067
•9281459
•9295217
•9306339
•9314822
•9320666
•9323872
•9324444
•9322383
•93x7697
•9310386
•93O0454
•9287906
•9272755
•9255004
•9234661
•9211733
•91^6229
•9158153
•9x27510
-859
845
829
812
794
-775
755
734
713
692
—672
651
631
611
59i
-571
549
526
502
477
-45*
426
401
376
35i
-326
301
275
248
221
-193
164
135
106
76
- 47
- 18
+ 11
40
69
+ 99
130
161
'93
226
+ 258
+
•3430019
•3465655
•3500299
•353394*
•3566572
•3598182
•3628768
•3658321
•3686830
•3714294
•3740703
•3766057
•3790345
•3813565
•3835710
•3856773
•3876753
•3895640
•39U4*9
•39301 16
•3945691
•3960150
•3973488
•3985699
•3996782
•4006733
•4015544
•4023218
•4029750
•4035142
•403939a
•4042500
•4044462
•4045283
•4044960
0-4043500
•4040900
•4037161
'4032288
-4026284
0*4019152
•40x0893
•4001512
•3991012
'3979394
0-3966661
•3447961
•3483102
•3517246
•3550384
•358*505
•3613604
•3643675
•3672706
•3700695
•3727631
•37535H
•3778336
•3802089
•3824772
•3846377
•3866899
•3886334
•3904672
'3921911
•3938042
•3953061
•3966959
•3979735
•3991382
•4001900
•4011280
•4019524
•4026627
•4032589
•4037410
•4041089
•4043624
•4045016
•4045264
•4044373
•4042342
•4039173
•4034866
•4029427
•4022859
•4015x63
•4006343
• 3996402
•3985342
•3973166
13959878
-149
139
130
121
1x2
- 102
92
8l
69
57
- 44
3'
17
- 4
+ 8
+ 20
31
4»
5*
63
+ 74
86
99
1x3
127
+ 142
156
169
182
194
+ 206
2x7
228
240
252
+ 264
277
291
305
320
+ 334
349
363
375
387
+ 398
o
222 SUN'S CO-ORDINATES, &c, 1882.
Mean
Time.
x,
TVtftfEq'ofDate.
Noon. Midnight
Red. to
M.Eq"
of
Jan. 1.
Noon.
True Eq*ot Date.
Noon. Midnight.
Bed. to
M.Eq*
of
Jan. 1.
Noon.
z,
ZV«*Bq*ofDate.
Bed. to
ILEq*
of
Jan. 1.
Noon. Midnight.
if
^o
Noon. -Noon.
July 4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
*3
*4
*5
26
27
28
*9
30
3i
Aug. 1
3
4
5
6
7
8
9
10
11
12
13
14
15
:6
17
18
0*2174246
•2339142
•2503398
• 2666965
•2829799
0-2991853
•3153082
•3313434
•3472862
•3631316
0-3788747
•3945105
•4100343
•4254416
•4407275
0-4558877
•4709176
•4858131
•5005703
•5*51*49
•5296526
•5439697
•5581323
•5721367
•5859792
0*5996560
•6131637
• 6264986
•6396574
•6526366
0*6654326
•6780420
• 6904608
•7026853
•7147117
0-7265359
•7381544
•7495626
•7607575
•7717355
0*7824927
•7930255
•8033310
•8134062
•8232481
08328531
2256772
*4*«353
2585271
2748477
2910926
3«>7*574
3*33371
3393* 6 7
3552214
3710163
3867063
4022867
4177529
4331001
4483236
4634193
4783825
4932093
5078957
5224374
5368303
5510706
565M45
5790785
5928385
6064313
6198530
6331002
6461697
6590577
6717609
6842755
6965976
7087235
7206493
7323712
7438850
7551870
7662739
7771419
7877873
7982069
8083976
8183566
8280804
8375659
+ 1962
i960
1956
195 1
1946
+ 1941
1939
1937
1936
1935
+ 1934
1931
1926
1918
1909
+ 1898
1885
1871
1857
1843
+ 1830
1818
1806
1795
1784
+ 177*
1757
1740
1720
1698
+ 1675
1652
1629
1608
1587
+ 1567
1547
1526
1504
1480
+ 14540
1427
1398
1368
+
•9111230
•9076753
•9039730
•9000160
•8958055
'8913422
•8866270
•8816607
•8764442
•8709794
•8652678
•8593109
•8531103
• 8466685
• 8399868
•8330676
•8259130
•8185254
•8109069
• 8030600
•7949868
•7866902
•7781721
•7694354
•7604829
•7513169
•7419400
•73*3543
•7225627
•7125673
•7023705
•6919748
•68x3819
•6705947
•6596157
•6484479
•6370944
•6»55583
•6138426
•6019509
5898872
5776544
5652563
5526964
539979*
1338
+ 13070*5271074
+
•90943 1 1
•9058560
•9020263
•8979424
•8936055
'8890160
•884175 1
•8790837
•8737427
•8681543
•8623199
•8562409
•8499195
'8433574
•8365568
•8295195
•8222481
•8147448
•80701 1 8
•7990515
•7908663
•7824586
•7738309
•7649859
•7559264
•7466546
•7371730
•7274841
•7175903
•7074938
•6971975
•6867028
'6760124
•6651290
•6540552
•6427942
•6313489
•6197227
•6079184
•5959404
*58379 I 7
•57H757
•5589962
•546357*
•5335624
0*5206148
+ 291
3*3
354
385
416
+ 447
479
5"
544
578
+ 613
648
682
716
749
+ 781
813
844
875
906
+ 937
969
1002
1036
107 1
+ 1 106
1 140
1172
1203
1232
+ 1260
1287
1315
1344
1375
+ 1407
1439
1470
1501
1531
+ 1560
1587
1613
1637
1660
+ 1683
+
0*3952816
•3937858
•39*1795
•3904625
•3886351
0*3866979
•3846514
•3824958
•3802320
• 3778606
0*3753822
•3727977
•3701075
'3673128
•3644143
0*3614126
•3583090
•3551043
•3517995
•3483957
0-3448937
•3412948
•3376000
•3338103
•3*99*7o
0-3259510
•3218835
•3177*51
'3134775
•3091409
•3047169
•3002061
•2956099
'2909291
•2861652
0*2813195
•2763932
•2713879
•2663050
•261 1459
0*2559121
•2506051
'2452265
•2397778
•2342609
o* -286771
3945476
3929965
39'3348
3895625
3876801
3856883
3835872
3813773
3790596
3766346
3741032
37H657
3687231
3658764
3629263
3598735
3567193
3534644
3501099
3466569
3431063
3394593
3357169
3318803
3*79505
3239287
3198155
31561*4
3113202
3069397
3024722
2979185
2932800
2885574
2837525
2788663
2739003
2688560
2637348
2585383
2532677
2479247
2425108
2370279
2314773
2258607
+ 409
420
43*
444
457
+ 470
485
499
513
5*6
+ 539
5>o
562
57*
582
+ 593
603
615
626
63S
+ 65*
663
675
688
700
+ 710
720
7*9
738
746
+ 755
764
774
784
795
+ 806
816
826
835
843
+ 850
857
863
869
875
+ 881
23^27'
(r
0*97
I'OO
1*02
I' 02
I'OO
0-97
o*93
0*90
0-87
o*86
o*88
o'9i
0-95 1
» # 99 (
1-03
1-05 .
1-07
i'o8 .
1*07
1-05,
1*02
o*99
0*97
0*96
0-97
1 •
1*10
i-iS
i"
•00
•04
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1-19
im8.
1-16
1-13
I'lO
1*09
i« 08
I'lO
1-13
1-17'
1*23
1*26
I'29 '
I-3I J
1-3*1
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Digitized by
Google
SUN'S CO-ORDINATES, &c, 1882. 223
Kean
Time.
x,
2ViwEq»ofDate.
JVoom, Midniffht.
Red. to
M.Eq«
of
Jan. 1.
JVoon.
Y,
2Vwtf Eq* of Date.
Noon. Midnight.
Red. to
M.Eq«
of
Jan. x.
Noon.
z,
True Eq x of Bate.
JVooit. Midnight.
Red. to
M.Eq*
of
Jan. r.
Noon.
_3P
Noon.
Aug. 19
20
21
22
*3
*4
*5
26
•7
28
*9
30
3i
Sept. 1
8
9
10
IX
12
13
IS
16
17
18
19
20
21
22
*3
*4
*5
26
*7
28
29
Oct. 1
0-8422185
•8513424
-8602216
-8688534
•8772361
0*8853668
•8932436
-9008648
•9082277
•9153306
0*9221723
•9287506
•9350629
•941 1078
• 9468830
1-9523864
•9576157
•9625687
•9672435
•9716380
0-9757509
•9795800
•9831239
'9863807
•9893500
0*9920300
9944200
9965188
9983258
0*9998404
1*0010623
•0019907
•0026254
•0029667
•0030145
1*0027688
• 0022300
•0013984
1 '0002743
0-9988577
0-9971484
•995H74
•9928543
•9902693
•9873920
0-9842234
8468109
8558128
8645685
8730761
8813331
8893371
8970863
9045787
9118118
9187843
9254946
9319401
9381 190
944<>*93
9496688
9550355
9601269
9649410
9694759
9737298
977701 1
9813878
9847882
9879015
9907262
9932613
9955058
9974588
999"97
0004880
0015632
0023448
0028328
0030273
0029283
0025360
0018508
0008729
9996026
9980395
9961844
9940373
9915983
9888671
9858441
9825296
+ "77
1246
1216
1186
1156
+ 1126
1096
1065
1032
997
+ 961
924
887
850
814
+ 778
74a
706
670
633
+ 595
556
517
477
436
+ 396
355
3»S
*74
»34
4* 193
152
in
69
+ 27
- 15
57
99
141
183
- 225
268
310
353
397
- 440
+
•5140853
•5009171
•4876062
•4741567
•4605729
•4468582
•4330168
•4190533
•4049709
•3907737
•3764653
• 3620492
•3475289
•3329080
•3181904
•3033794
•2884794
•*734943
•2584287
•2432866
'2280728
•2127918
•1974482
• 1820465
•1665917
•1510882
•1355405
•1199536
•1043322
•088681 1
•0730050
•0573088
•0415970
•0258746
•0101462
0*0055834
0213099
0370286
0527355
0684267
0-0840979
•0997452
•1 153644
•1309509
• 1465005
o* 1620083
+
5075192
4942792
4808985
4673814
4537316
4399531
4260501
4120266
3978864
3836332
3692706
3548018
3402307
325561 1
3107963
2959403
2809972
2659713
2508670
2356884
2204404
2051275
1897542
1743*55
1588457
1433196
1277516
1 12 1469
0965100
0808458
065 1 59 1
0494545
0337368
0180109
0022812
0134474
0291705
0448837
0605833
0762649
0919249
1075586
1231620
1387306
1542599
1 69745 1
+ 1706
1729
1753
1778
1804
+ 1831
1857
1882
1905
1925
+ 1943
1958
1973
1989
2005
+ 2023
2042
2062
2081
2ZOO
+ 2117
2132
2145
2^55
2164
+ 2172
2180
2187
2195
2203
+ 2213
2223
2234
2244
2253
+ 2260
2264
2265
2264
2262
+ 2260
2259
2259
2261
2264
+ 2266
. +
•2230281
•2173157
•2115415
•2057072
•1998145
•1938652
•1878609
•1818034
•1756943
• 1695350
•1633274
• 1570728
• 15077*7
•1444*89
1380430
•1316167
•X25X5I7
•1x86499
'1121x33
1055438
•0989431
•0923135
•0856568
0789751
•0722704
•0655448
•0587999
•0520383
•0452616
•0384721
•0316719
•0248628
•0180470
•01 12266
•0044034
• 0024205
•0092431
•0160627
•0228773
•0296852
•0364847
•043*737
•0500507
-0568x34
•0635600
0*0702885
23*27'
+
2201797
2144362
2086317
2027681
1968469
1908699
1848387
1787551
1726207
1664370
x 60205 8
1539283
1476062
1412411
1348347
1283889
x 2 1905 3
1153859
X088325
1022472
0956317
0889884
0823190
0756255
0689 10 X
062x747
055421 I
0486517
04x8684
0350732
0282684
0214556
0146373
0078152
0009913
0058321
0126534
0x94707
0262822
0330862
0398807
0466639
0534340
060x889
0669267
0736453
+ 888
895
902
910
9x8
+ 925
932
938
943
946
+ 949
95i
954
957
960
+ 965
969
974
978
981
+ 984
985
986
986
985
+ 984
983
982
982
981
+ 981
981
981
981
980
+ 979
976
972
967
962
+ 956
95i
947
943
939
+ 935
Digitized by
224 SUN'S CO-ORDINATES, &c, 1882.
Time.
IViMEq'ofDftte.
Noon, J Midnight.
Red. to
M.£q>
or
Jan. i.
Noon.
y,
ZVvoEq'ofDate.
Noon. Midnight.
Red. to
M. Eq«
of
Jtui. 1.
Noon.
z,
TVwaBq'ofDate.
Noon.
Midnight.
Red. to
M.E«r
of
Jan. x.
Noon.
I*
&
JVbow.
Oct 4
5
6
7
8
9
zo
11
12
13
14
15
16
«7
18
19
so
21
22
23
24
*5
26
27
28
29
30
3i
Nov, 1
2
3
4
5
6
7
8
9
10
11
12
13
14
IS
16
17
18
•980763
•97701 1 8
•9729704
•9686389
•9640191
•9591111
•9539163
•9484363
•9426720
•9366251
•9302972
•9236904
•9168068
•9096477
'9022159
•8945140
•8865445
•8783096
'8698122
•8610548
•8520402
•8427706
•8332486
•8234766
•8134572
•8031922
•7926849
•7819376
•7709532
•759734a
• 7482840
•7366053
•7247017
•7125764
•7002326
•6876741
•6749045
•6619276
•6487474
•6353679
•6217938
* 6080290
•5940784
•5799464
•5656374
0*551x566
9789237
9750274
9708408
9663650
9616010
9565495
9512119
9455895
9396837
9334961
9270285
9202831
91326x5
9059658
8983985
8905625
8824600
8740936
8654658
8565795
8474371
83804x1
8283937
8184977
8083552
7979686
7873410
7764749
7653728
7540378
7424729
73068x4
7186665
7064316
6939799
6813155
6684417
6553627
6420822
6286049
6149349
6010767
5870348
57*8137
5584x82
5438530
-483
5*7
570
613
655
- 697
739
780
821
863
- 905
948
99*
1034
1078
— 1121
1164
1206
1246
1285
-1323
1361
1400
H39
1480
— 1522
1564
1605
1646
1686
-1724
1761
1796
1831
1865
-1899
1933
1968
2004
2041
— 2078
2115
2152
2187
2220
-225
•1774696
• 1928798
•2082339
•2235273
•2387550
•2539123
•2689944
•2839964
•2989138
•31374x6
•3284750
•3431097
•3576404
•3720629
•3863716
•4005648
•4146350
•4285793
•44*3933
•4560732
•4696155
•4830163
•4962717
•5093784
•5223331
•5351310
•5477688
• 5602424
•57*5477
•5846807
•5966372
•6084133
•6200054
•6314092
•6426212
•6536373
•6644540
•6750673
•6854738
•6956698
•7056521
•7154168
'7249611
•7342815
•7433755
0*7522402
1851814
2005642
2158885
23x1496
2463427
2614630
2765057
2914660
3063393
3211204
3358051
3503884
3648655
3792322
3934837
4076155
4216232
4355028
449*502
4628618
4763338
4896624
5028438
5«5875i
5287518
541470*
5540264
5664163
5786360
5906813
6025481
6142327
6257311
6370394
6481540
6590709
6697863
6802967
6905984
7006880
7105619
7202168
7*96495
7388571
7478367
7565857
+ 2267
2266
2264
2259
2252
+ 2243
2233
2223
2213
2203
+ 2193
2185
2177
2170
2161
+ 2152
2141
2128
2112
2093
+ 2074
2054
2035
2017
2001
+ 1985
1970
1953
1934
1914
+ 1891
1867
1841
18x5
1788
+ 1761
1734
1708
1682
1656
+ 1630
1604
1576
1547
15x6
+ 1484
•0769966
•0836825
•0903439
•0969788
•1035851
•110x607
•1 167035
'1232116
•1296827
'1361149
• 142506 1
•1488544
•I55I577
•1614141
•1676217
•1737782
•i 79882 1
•1859315
•1919247
•1978597
•*037353
•2095494
'2153008
•2209875
'2266082
•2321609
•2376441
•2430559
•2483947
•2536587
•2588459
•2639548
•2689836
•2739306
42787942
•2835727
•2882646
•2928680
•2973818
•3018043
•3061342
•3103697
•3145097
•3185532
•3224982
0-3263441
0803425
0870164
0936648
1002857
1068769
"34363
1 199620
1 2645 1 8
1329039
1393x57
1456858
1520119
1582919
1645242
1707065
1768368
1829137
1889354
1948997
200805 1
2066502
2124331
21 81524
2238063
2293932
2349114
2403590
2457346
2510362
2562620
2614102
2664793
271.4674
2763729
281x942
2859295
2905774
2951362
2996046
3039810
3082638
3124517
3165437
3205381
3*44337
3282296
931
926
921
9H
907
899
890
881
872
863
853
844
834
826
818
809
800
790
780
768
755
74i
727
713
700
687
675
663
651
638
625
61
596
580
563
547
53o
51a
495
478
462
446
430
4x4
398
• 382
*3°*7'i
11*09
II*IO
12
14
'5
'5
14
12
II'
II"
II"
II"
II'
II*
n*o8 j
11*03
10-97
10-92
10*87
10*84
10-82
io-8i
10-82
10-83
10*84
10*85
10-84
io*8o
10-74!
10-67 I
io-6o I
•°'55 \
10-49 j
10*49 !
io*49 j
10*50 ,
10*51 1
10-50 I
10-49
10-46
10-42
10*36
10*29
10*23
io'i8
10*14
10*11
10*09
10*10
IO'II
l
10*12
Digitized by
Google
SUN'S CO-ORDINATES, &c, 1882. 225
■ho
Tim©.
Nov, 19
SO
SI
22
*3
*4
26
*7
28
29
30
Dec. 1
2
3
4
5
6
7
8
9
10
11
12
X,
2Vir*Bq*ofDvte.
Noon, I Midnight.
z,
Sq* of Date.
► •5365081
'5216969
•5067271
•4916034
•4763300
0*4609111
•4453509
•4296544
•4138*54
•3978687
0*3817886
3655902
349*777
3328563
3163306
0-2997059
•2829866
•2661781
•2492858
•2323150
0*2152709
1981594
1809858
1637563
1464763
14 |o*i29i5i6
15
16
-7
18
»9
20
21
22
*3
*4
*5
26
*7
28
29
30
3i
3*
•1117882
•0943917
•0769677
•0595217
0*0420589
•0245845
•0071037
+
•0103783
•0278566
10-0453257
•0627808
•0802168
•0976284
'1x50104
•1323576
* 1496650
* 1669272
0*1841389
529x226
5»4*3i5
499x842
4839852
4686384
453M84
4375194
4*175**
4058627
3«98437
3737039
3574478
3410803
3246061
3080303
2913577
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2577420
2408099
2238017
2067232
1895800
17*3777
1551223
1378191
"04744
1030937
0856828
0682471
050792 1
0333228
0x58446
+
0016375
0x9x183
0365926
0540554
0715015
0889260
X063234
1236887
1410x66
1583021
1755398
-2281
2309
*335
2362
2390
-24x9
*449
2480
2511
2542
-2570
2596
2620
2642
2662
-2681
2699
27x7
2736
2156
-2776
2798
28x9
2840
2S59
-2876
2890
2901
2909
2916
-2922
2929
2938
*947
2958
-2968
2978
2985
2990
2992
-2992
2989
2985
-2979
•7608730
•76927x8
'7774339
•7853578
•7930407
'8004804
• 8076*75
•8x46228
"82x3210
•827767
•8339590
•8398949
•8455721
•8509893
•8561440
'86x0339
•8656573
•8700x28
•8740978
•87791x6
'88145x9
'8847x81
•8877084
•8904214
•8928566
-8950131
•8968904
'8984881
•8998060
• 9008442
'9016024
•9020810
•9022801
•902x999
'9018402
'90x2015
'9002841
•8990878
•8976130
•8958601
•8938296
'89152x1
•8889356
•8860733
765x018
7733826
78x4258
7892296
796791 1
804 1086
8x11799
8180033
8*45757
8308949
8369592
8427659
8483x35
8535996
8586221
8633790
8678688
8720892
8760388
8797160
8831x94
8862479
8890996
8916739
8939698
8959867
8977243
8991821
9003602
90x2583
90x8766
9022154
90**749
9020549
9015557
9007776
8997207
8983851
8967712
8948795
8927x00
8902629
8875390
+ 1450
1415
1380
1345
1311
+ 1278
1244
1210
»75
1x39
+ 1102
1063
X024
983
94*
+ 901
859
817
776
734
+ 692
650
608
564
519
+ 473
4*7
380
333
286
+ 2400'
193
x 4 6
99
5i
47
97
147
198
248
298
348
398
•3300897
•3337335
•337*749
•3407129
•3440464
'347*744
•3503960
•3534io6
•3563169
•3591137
-3618002
•3*43755
•3668386
-3691886
•37H*45
•3735455
•3755507
'3774393
•3792106
• 3808643
•3823993
•3838153
•3851118
•3862883
•3873444
•3882799
•3890946
•3897879
•3903599
•3908x07
3911401
•39x3482
•39H349
•39x4006
•3912450
0*3909684
•3905707
'3900522
'3894x28
-3886526
0-3877715
•3867699
'3856480
0-3844056
Midnight.
3319*45
3355171
3390070
3423928
3456736
3488486
3519169
3548774
3577*91
3604708
36310x8
36562x2
3680278
3703*09
37*4994
3745626
3765096
3783396
3800522
38x6467
383x222
3844785
3857151
38683x4
3878273
3887025
3894565
3900891
3906005
3909907
39«594
39x4068
39H3*9
3913379
39x1218
3907847
3903266
3897476
3890478
3882271
3872857
3862239
3850418
RecLto
M.Eq»
of
Jan. 1.
Noon.
364
346
326
306
286
266
246
227
208
190
172
154
135
1x6
96
75
54
3*
XI
IX
33
55
76
96
1x6
135
154
174
195
2x6
238
260
283
306
3*8
350
370
39 1
410
4*9
449
469
489
510
Noon.
zfzf
n
10-13
lO'X2
10*09
10*04
9'97
-5
(nautical almanac, 1882.)
Digitized by
Googk
,26
MERCURY, 1882.
MEAN TIME.
Apparent
Right
Aaeension.
Noon.
h m ■
183451-75
184154-53
184858*52
1856 3*60
19 3 964
19 10 16*52
19 1724*11
192432*29
19 3140*90
193840*77
i945 58'77
1953 7-70
20 016' 39
20 724*61
20 1432*15
2021 38*76
202844*16
203548-05
2042 50*07
204949*82
205646*88
21 3 4o-74
21 10 30*82
21 17 16*47
21*23 56*94
21 303159
21 36 58*83
2143 I 8'io
2149 28-11
215527*27
22 1 14*03
22 646*62
22 12 3*09
22 17 1*30
22 21 38*99
222553*77
22 2943*15
2233 4*63
22 3S5S*80
22 38 14*33
22 3958*21
2241 5*75
224135*73
224127*57
224041*41
22 39 18*17
* 2 37 19-75
Apparent
Declination.
Noon*
o 1 *
S.2447 IO* I
2445 3'3
2441 29*8
243628*
242958-8
2421 59*2
S.24 12 29*0
24 127*5
234853*6
233446*9
23 19 6
23 1 52
S.2243 3*4
22 22 39*7
22 041*2
21 37 8*2
21 12 0-6
204519
S.2017 4*9
194719*0
19 16 3*2
18 43 19
18 911-4
I73341-9
8.165655*4
16 1857*4
15 39 54
14 59 53*9
14 19 5
13 37 39
S. 125548*0
12 13,46*1
11 31 50
1050 17
10 929
92947
l 51 H
815 18
741 22
7 10 12
642 16'b
6 1756-6
5 57 37
54I37-I
5 30 12*0
523 32*6
52143-
S.
s.
s.
Log. of
True Dirt.
from
the Earth.
Noon.
Meridian
Passage.
1*1582612
'1581720
•1579126
•1574802
-1568722
•1560847
'•155"33
•1539536
•1525994
•15 10445
•1492812
•1473017
>• 1450966
•1426558
•1399683
•1370213
•1338014
•1302939
>* 1264829
•1225512
•1178801
•I 130497
•1078390
• 1022260
>• 0961 880
•0897012
•0827419
•0752869
•0673139
•0588024
>* 0497353
•0400996
•0298887
•0191029
>• 00775 3 7
1*9958620
1*9834641
'9706100
•9573681
•9438241
-9300819
•9162648
1-9025125
•8889810
•8758377
•8632591
1-8514227
h
23
23
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O
O
o
o
o
o
o
o
o
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o
o
o
o
o
o
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6-4
9 1
12-8
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19*3
22 '5
25-7
28*9
32*1
353
385
41-0
44*7
47-8
5<>-9
S'*
59
2*6
53
7*9
10*4
12-8
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18*9
20*5
21*8
22*8
2 3 *5
23*8
236
23*0
21*9
20*2
18 *o
15*1
u-7
7 1
2-8
S7'5
51*6
Helio-
centric
Longitude.
Noon.
Helio-
centric
Latitude,
Log. of
Rad. VecL
Noon,
Noon.
o 1 *
171 1430*8
*74 3 44'9
2765418-9
279 4.656*2
28241 20*3
*85 37 55*4
2883656*0
291 38 37-4
*9443i5'i
29751 5*3
301 225*0
3041731-8
307 36 43 -8
311 020
3142840*2
318 2 4*7
3214054-4
325 25 31 *x
329 16 z6*9
333i3 34-°
3371745*2
341 29 X2"8
3454818-5
3501523*6
3545047*4
359 34 47 •*
4*7 37*5
92929*0
144027*5
20 033*0
25 29 38
31 7*9
3* 53 4*
4« 47 39
484840
54 55 47
61 756
67 2352
73 4*"
80 127'
8620 9'
923645
984950'
10458 o
in o 4
116 5457
122 41 48
454I3-79
5 837-8
5 22 23*6
5 35 *9 # o
547 5I-G
559287
6 1017*19
6 20 13*7
62914*9
6 '37 i6'7
6 44H-7
650 4-2
65439*8
657 561
659467
7 o 5*i
65844*2
65536*3
,65033-
64327-
634 9-
622 30*
6 822'
5 5137"
532 r
5 946
4 44 30'
4 16 x6<
3 45 5"
3 II 2'
2 34 l6'
155 «
I 13 37
o 30 30*
.0 1348'
05842*
N.i 43 3* '
22731
3 9 58'
3 50 10'
42728
5 1 18
7 3,
5
1
6 a
IN,
7
5
o
6
5
1
8
2
8
4
6
3
5
5
7
N.5 31 14-2
55655-7
618 12*2
63459-9
N.6 47 22'4
'6647865
'6631655
'661281a
'6591321
•6567176
•6540367
'6510879
•6478715
'6443860
'6406319
'636609a
•6323190
•6277629
•6229439
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•6125341
'6069558
•6011409
9-5951013
'5888524
•5824134
•5758067
•5690605
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9- 5552896
•5483498
•5414420
•5346263
•5279706
•52x5490
9*5154420
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O
MERCURY, 1882,
MEAN TIME.
Month
and
Day.
Apparent
Ascension.
Noon.
Apparent
Declination.
Noon.
Log. of
True Dist
from
the Earth.
Noon.
Meridian
Passage.
Helio-
centric
Longitude.
Noon.
Helio-
centric
Latitude.
Log. of
Had. Vect
Noon.
Feb. 16
•3
-19
20
SI
22
2J
*4
»S
26
*7
28
Mar. 1
s
3
4
5
6
--1
9
10
11
12
-- '3
16
17
- 18
*9
20
21
22
23
H
'J
3
30
Apr. 1
2
J.
6.
h m ■
223710-75
22 3448*90
22 3I49-U
222825*63
22 2443*02
22 20 47'29
22 1644*49
22 1240*67
22 841*63
22 452*7;
22 I l8*6<
2158 3*34
2155 9*89
21 5240*62
21 5037*06
2149 0*07
" 4749*93
2147 °'4 2
21 4648*98
214656*74
21 47 28*64
21 4823*49
21 4940*00
21 51 16*87
21 53 12*82
215526*59
21 57 56*91
22 042*63
22 342*64
22 655*92
22 1021*47
22 1358-43
22 1745-97
222143*53
22 2549*84
2230 4*87
223427*85
22 38 58*2
22 45 35*6J
22 40 19*67
2253 9'89
2258 6*00
23
23
23 13 27*21
231844-55
23*4 ^' 79
8 14*89
5*143-49
52442*4
5 32 20*2
544 199
6 018*0
619445
642 4*7
7 640*4
73252*8
8 o 2*7
82733*9
854 53-1
921 31*1
947 3'8
11 11*3
03337-9
O54 12*6
1 1246*9
I 29 15*6
1 43 36*0
I55 46-5
* 547*3
2 13 39*6
219254
223 6-7
2 2446*5
2 2427*6
2 22 12*9
2 l8 5*2
212 7*7
2 423*0
I54 54-I
14343*3
I30 53*3
I 1626*5
I 25*1
O425I
O2347
o 3 14
941 14
91750
8 53 3
8 2654*9
759263
73039*3
7 035*3
629 15
•8514227
* 8405025
•8306607
* 8220404
*8 14758 1
•8088979
•8045077
'8015982
•8001414
•8000777
'8013194
•8037575
* 8072695
•8n7*55
•8169947
'8229503
-8294724
•8364512
•8437876
•8513937
•8591939
•8671226
•8751241
'8831524
•8911686
•8991416
•9070458
•9148606
•9225706
•9301631
•9376287
•9449616
•9521565
•9592109
•9661231
•9728933
•9795213
•9860088
•9923571
•9985678
•0046434
•01058c
•0163075
•0220801
•0276359
•0330660
-0383722
51*6
3
30-9
23-3
15-5
{.; •!-.}
23 51-7
23 44-0
23 365
23 29-4
23 22*5
23 i6"i
23 IO'I
23 4-6
22 59*3
22 54*8
22 50*6
22 46*7
22 43-3
22 40*3
22 37*6
22 35*2
22 33*2
22 315
22 30*0
22 28*8
22 27*9
22 27'I
22 26*6
22 26*3
22 26*1
22 26*1
22 26*3
22 26*6
22 27*0
22 27'6
22 28*2
22 29 O
22 29*9
22 30*9
22 32-O
22 33'2
22 344
22 35 -8
22 37*2
22 38*7
O I A
32 41 48
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33 48 51
39 816
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[49x8 8
(54 842-6**
[584956-5
16322 7*6
1674536*8
72 046*8
76 8 2*3
80 748'
84 032'
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9
5
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5
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205 12 19'
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11 38 9«
144530
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20 5040'
*3 49 3
264459
29 3846'
323037-
352048'
38 932'
Ho 57 3'
43 4334"
4629 18'
249 14 28'
51 59 16'
5443 55'
57 28 36"
60 13 32'
625856
654459
683154
7H9 53*5
74 9i°-»
765956-9
795227-3
824655*1
O 9
,64722-4
65528*7
659 32*6
6595I
65643*9
65030*6
.64I 3I-8
630 7*6
61636*8
6 1 174
5 44»5'6
5 2616
N.5 7 2-4
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4 4 4 6 **
34*59'7
32055*2
^25838*5
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x 651-7
N.0 4449*4
02259-3
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S.o 1957*0
041 O'O
I 144-5
8.122 9*2
1 42 X2'9
2 154*7
2 21 13
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3 34 16
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4*4 8-3
439 41-9
8.45441
5 9 3'9
52248-6
5 35 5*'7
8.548 13V9
O
Q 2
,28
MERCURY, 1882.
MEAN TIME.
A
Month
sod
Apparent
Right
Ascension.
Apparent
Declination.
Log. of
TrueDist.
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Rao. Vect.
Noam.
Noon.
Noon.
Noon,
Noon.
Noon.
1
h m ■
9
h m
9
9 •
Apr. 3
2324 6-79
S. 620 15-7
5 56 42-0
0-0383722
22 38-7
2814655-1
8-5 4*13*9
9-6566402
— 4
23293381
•04J5557
-0486169
22 40*3
*85 43 34'*
5 59 49'5
•65395x0
+*'\
5
*3 35 5*54
5 22 556
22 4I-9
28842 39*5
6 10 36*4
6509940
6
234041-94
4 47 57-7
•0535564
•05837J7
•0630686
22 437
1914425-9
62031*4
•647769*
I
23 46 22 99
4 1149*8
22 45-5
29449 9-1
62930*8
•6442754.
2352 8*70
33433-2
22 474
*97 57 5*4
63730*7
-6405131
- 9
235759-10
S. 256 9-5
2 16 39-8
1 36 o-o
0-0676*91
•0720839
22 49-4
301 831*6
8.64426*6
9*6364820
U* 3«
10
3 54'*4
22 51*4
304*345*5
650 13*8
'6321834
r
11
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•0764003
• 0805849
22 53-6
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•5 5447**
-6276191
12
15 59*08
05429-5
22 558
311 649-7
658 0*9
'6227921
'3
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•0846333
22 58*1
3143518-9
65948*8
•6177061
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N. 03145-0
•0885406
23 05
318 852-9
7 4**
-6113664
- 15
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9 * 6067808 ;
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•5886573
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1 1 351
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•1057125
23 139
23 16-9
3372531-6
63349-7
-5822124
- 20
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512 9-2
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341 37 12-9
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• 5756008 (
57 # •**
21
1 1450-19
N. 6 1 34-9
0*1112971
•1137637
23 20*1
3455633-2
8.6 754-0
9-5688508,
22
12153-50
129 3-96
65137-4
23 233
23 26*6
3502353-3
55" 3*8
-5619960
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742 12-2
83314-0
•1159915
354 59 3* '7
53128-7
•5550755
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13621-51
•1 179635
23 30*1
359 43 48-7
5 9 **4
•5481360
a l
1 43 46- 56
1 51 18-63
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10 16 15-1
' 1 196598
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•5412295
- 26
-1210604
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4 15 *o*9
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3
15858-40
2 645*63
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9-5*77675
1159450
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20 1041*8
3 9 56-4
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« 29
2 1440-25
12 51 19*6
•1232683
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2540 4-0
*33 5*5
•515*578
30
2 22 42 a 07
2 3050*78
13 42 345
•1232637
23 536
31 18 10-7
I53 46*3
•5095635
May 1
143319-1
•1228512
23 57-9
37 4 37*5
1 12 18*9
•504359*
3/ <?*•#/
2
239 5-97
152321-9
-1220097
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8.019 9*i
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3
24727-10
N.16 12 30*8
0*1207198
2*3
6-8
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9*4957659
4
25553-48
17 033-5
-1189655
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3 424-50
3 12 58*61
174717-6
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ii*4
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•4885497
7
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•4878748
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8
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1957 35-9
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255
80 13 19*4
351 12-6
•4881066
9
3 38 51-60
N.2037 6-8
0*1029086
30*2
863158-7
N.4*8 34*7
9-4892397
10
34728-59
21 1424*0
•0982405
349
9248 30-5
5 2 18*0
•4912486
11
356 3-15
21 49 20' J
* 093 1086
•0875303
395
99 1*7*4
$3* 5*9
•4940894
- 12
4 4 34'<>4
22 2148-9
44'i
105 928*0
5 57 39*4
•4977031
13
413 0'02
22 51 46*2
'0815262
48-6
111 11 19*4
61847*5
-5020168
'4
4 21 19*94
23 19 9*2
•0751197
53'o
117 5586
63527-0
•5069493
»S
42932-70
N.2343566
24 b 8-6
0-0683351
57-3
122 52 33-9
N.64741-3
9-5124150
16
437 37*7
-0611980
1 14
128 3025*2
655 39*9
•5183252
.. \l
44532-72
242546*6
•0537348
* 5*4
*3359 3*5
65936-5
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45318-19
244253-3
•0459708
1 9-2
139 18 10*9
65948-5
•53"376
'9
5 052*92
N.24 57 32-2
0*0379314
I 12*8
1442738-9
N.6 56 35-09*5378791
o
MERCURY, 1882,
22c
MEAN TIME,
Month
and
Day.
Apparent
Bight
Ascension.
Apparent
Declination.
Log. of
True DUt
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Ksd. Vect
Noon,
Noon.
Noon,
Noon.
Noon.
Noon,
May 19
h m ft
5 052*92
9 *
N.245732-2
0*0379314
•0296409
h m
I 12*8
9 *
144*7 38*9
or*i
N.6 56 35-09-5378791
20
5 8 16*20
25 9472
1 16*3
149 27*7-6
650 l6'2
'5447474
21
51527-38
52225*88
251943*3
•0211226
1 195
1541744*0
641 12*6
•5516779
22
2527259
•0123986
I 22*6
1585840*8
62944*2
•5586140
- **3
529 11*19
2533 05
253633*0
0*0034900
I 254
1633035*6
616 9-8
•5655063
*4
5 35 4»'8i
9-9944166
i 279
1675348*9
6 047-2
•57*3"4
25
542 0*30
N.2538 9*4
9*9851974
I 303
17* 843-9
N.5 43 52-7
9*5789957
26
5 48 3'*H
25 37 55*9
•9758507
1 32*4
176 15 45 -s
52541-1
•5855252
27
5 53 5123
2535586
•9663934
'9568428
1 34-2
180 15 18*3
5 6»5'5
•5918759
28
5592387
253223*8
1 358
184 749*1
44617-7
•5980265
- 29
6 440*82
25 27 17*6
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1 371
1 382
187 53 436
4»5 28-i
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30
6 941*69
25 2046-0
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4 4 5-8
•6096629
3 1
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N.25 1255*2
9*9277960
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1 39-0
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N.342 18-7
9*6151241
Jane 1
61853*77
623 4*28
25 3 5i*o
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3*013*6
•6203351
2
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2442 26*4
1 39*7
2015936-4
25756-7
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— 3
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1 396
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2430174
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1 302
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1
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23 259*8
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2294419*0
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9*8149684
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9*6601976
l i
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•8066981
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235 26 15*0
1 223*0
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- 14
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1 2247*1
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15
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9-7713540
1 0-5
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8.24043-1
9-6683858
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2038 13*1
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2 59 11-8
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2023 30*2
• 7609399
499
2544912-9
3 17 H*3
-6690252
21
20 923*8
•7567334
44*3
*57 33 54'6
3 34 49*4
•6689548
22
64059*26
19 55 59*5
•7532579
38*4
260 1851*6
35155*9
-6686242
*3
63842*23
1943 22*6
•7505567
32*4
263 416*2
4 832*6
•6680335
24
6 3624*56
N.i9 3i38*5
9*7486673
26*1
265 5020*8
S. 4 24 37-9
9*6671822
.
« 25
63359*42
19 2052*4
•7476236
19*8
268 37 17-6
44010-5
•6660696
ttxfV
-+. 26
6 31 29*13
628 56*17
1911 9*3
•747449'
•7481609
134
6*9
fo o-|f
\*i f4'OJ
2712519-3
455 8*5
•6646950
***■'
;i
10 2 338
18 55 10*0
*74 1438-5
5 9 3<>*3
•6630578
6 26 23*01
•7497663
277 528-4
5*3i3'7
•661157s
•6589918
29
623 52*20
1849 1>s
•7522639
23 47*7
27958 a- 3
53616-5
30
6 21 26*26
N.1844 11*9
184042*8
9*7556429
23 41*5
2825234*0
S.5 48 36'3
9-6565608
*.
July 1
619 7*65
6 ib 58-72
•7598829
23 35*4
2854917-6
6 010*4
•6538634
2
183835*9
•7649561
•7708267
23 295
2884827*6
6 1055*8
'650898s
3
6 15 1*64
18 57 52'0
23 23*9
291 50 19*3
62049*1
•647665c:
1 4
6 13 1843 N.18 38 30-89*777452623 18*5
29455 8-3 3.62946-79-644163^
Digitized by
Google
230
MERCURY, 1882.
MEAN TIME.
Month
and
Day.
July 4
-?
9
10
11
• 12
*3
14
*5
16
-17
18
»9
20
21
22
- 23
*4
27
- 28
29
3°
3i
Aug. 1
2
/;,/
<<*»• 3
4
5
6
- I
9
10
11
12
13
- H
\i
\l
" *9
XT
Aacension.
Aboi.
Apparent
Declination.
Noon.
Log. of
True Dirt.
from
the Earth.
Noon,
h m ■
6 13 18*43
6 11 50*92
6 1040*70
6 949-18
9 6*68
917-51
> 50*61
6
6
6
6 9-
6 1046*46
612 5*42
61347-71
61553-48
61822-81
621 15*68
62432*01
628 11*69
632 14-51
63640*25
641 28*59
64639-09
652 11-27
658 455
7 418-17
7 1051*29
7 1742*86
72451-73
73216-55
73955-82
74747*87
75550-96
8 4 3-20
8 12 22-70
82047-51
82915-75
83745-60
84615*37
85443-51
9 3 8-62
9 11 29-50
91945-16
9*7 54
- . - . 74
93557-60
94353-22
95141*25
95921*46
io 653-71
101417-99
o 1
N.1838
1840
1843
1848
1854
19 I
N.19
191
1927
19 38
1949
20 O
N.20 12
20 24
20 36
2048
2059
21 IO
N.2I 20
21 29
2137
2143
21 48
21 52
N.21 53
2153
21 50
2144
2137
21 26
N.21 13
20 57
20 30
20 l8
19 55
I929
N.19 O
183O
'7 57
17 23
1647
l6 9
N.I5 30
14 50
14 9
13 2D
N.i 2 43
30-8
30*9
505
26-7
iS-4
12-0
u*3
7'4
532
21*0
24-6
54
408
35*8
29*1
io'4
29*2
»4*7
15-2
19-5
155
5>*5
s i' 7
i6'4
42-50
3"4
9'4
52*2
5-0
42-4
40-9
593
38
399
9*0
n-7
54*9
27*0
S7*i
348
29-8
S-*7
50- 3
34*7
i3'6
55"
47'
I
•7774526
•784787O
-79*7779
•80I37I9
•8IO5I3O
*820I456
'8302134
-8406623
•85H384
862490022 44
8737677
8852237
8968122
9084897
92021 3 1
9319417
•9436358
955*559
9667634
9781203
9892887
0002309
0109094
0212873
0313291
0409995
0502657
0590974
0674675
0753527
0827345
0895992
0959391
1017513
1070387
1 1 18093
1 16075 1
1198519
Meridian
Passage.
h m
23 i8-s
•n
4-i
o*o
22 56*2
22 52*8
22 49*8
22 47*2
22 430
22 41-6
22 40*5
22 39-8
22 395
22 39*6
22 40*1
22 40*9
22 42-1
22 43-
22 45-
22 47-9
22 50*5
22 53*4
22 56
o
3
7
*3
23
*3
23 II-5
23 l6- I
23 20*5
23 24-9
23 29-5
38-6
23 43-2
*3 477
23 52*1
23
23.
123158823 56-4
'1260166
1284477
•1304754
'1321228
■1334131
•1343685
1350096
J35357V
*
o-6
4-8
8*8
12*6
16*4
20*0
234
Helio-
centric
Longitude.
Noon.
Helio-
centric
Latitude.
Noon.
Log. of
RacLVect
Aboii.
*94 55 8'3
298 3 10*9
3011444-0
30430 5-3
3074933-0
3x1 1326*1
3x44a 4-4
3181548-3
3215458-7
3*5 39 57*5
32931 6*8
3331848-8
3373326-4
34145*1*4
346 456-2
3503231-5
355 826-6
3595258-8
44622*2
9 48 47'4
15 0x9-7
202059*0
255037-6
31 29 0*2
37I5 4I'9
43 10 7-9
,49 "33
55 19 1*3
61 31 26*5
674733*6
74 5 59'
8025 16'
864352-
93 019*
9913 r
X05 2057*
in 22 36'
117 17 i-
123 321*
1284055*
134 9 16-
13928 6<
1443716-1
1493646-9
1542645-8
159 7256
1
8.62946'
6 37 44"
64438
65023*
6 54 54
658 5'
8.65950-
703-
65835-
65511
650x0'
64256-
8.6 33 30-
6 21 42*
6 725-
55029'
5 30 49'
5 817-
8.44250-
414*5'
3 43 3'
3 85c
*3*54'
15*31
S.x 11 o-
8.02747-
.0 x6 34'
1 1 29'
1 46 16'
2 30 xi-
ON
4 |N.3I2 32-
3 5* 34'
42940*
5 3 17'
5 3*57*
55822*
N.61922
6 35 53
6 47 59
65550
65940
6 59 45
*5
^65625-9
650 1
64053-4
6 2920*8
X63 39 4'oN.6i5 42-8
9-6441631
•6403924
•6363531
* 6320463
•6274739
•6226389
9-6175448
-6121975
* 6066044
•6007753
•5947220
•5884610
•5820105
'5753944
•5686406
•5617834
•5548615
•5479221
•5410179
•5342101
•5275665
•5211617
•5150766
•5093962
9*5042084
-4996004
•4956563
•4924528
'4900560
•4885169
9-4878701
-4881298
•4892904
•4913257
•494191*
•4978175
9*50216x4
•5071x15
-5x25921
•5 185 147
•5247928
•53x3436
9-5380900
•5449609
•5518924
•5588277
9*5657'79
**'*+
Digitized by VjOC
3/ U&f
33 14c
*6 ;•>•■
o
-
siuli
lUUttl
t, 18
BS.
*3
MEAN TIME.
Month
and
TWv
Kigali
AMenikm.
Apparent
Declination.
Log. of
TrueDist
from
the Earth.
Meridian
Passage,
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
BacLVect
*/•/•
Noon.
Noon,
Noon.
Noon.
Noon,
Noon.
h m ■
9 ft
h m
1 w
t *
Ang.19
IOI41799
N.i2 43 47*8
0*1353571
2 l'i
16339 4*o
N.6 1542*8
9-5657179
\4*Vf€
so
I02I 34*31
11 59582
•1354295
268
168 2 i-6
6 017*1
'5725204
21
102842*78
111533*2
•1352440
30*0
172 1641*6
54320-0
*579i993
22
I0 3S43-54
103039*0
•1348163
33*0
36*0
17623 28*7
525 6*2
•5857236
*3
IO42 36*76
94521*4
8 59 45 4
•I34161I
1802248*4
5 5 4«*8
-5920684
*4
104922*06
•1332912
388
184 15 6-7
4 45 39*6
-5982124
- *5
1056 1-45
N. 81356*0
0*1322181
41*5
188 049*3
N.4 2448-8
9*6041391
26
11 ;33'39
11 858-69
7*7 57*5
•1309526
44*1
1914021*7
4 3*5*6
•6098345
27
64155-9
5 55 4*'9
•1295054
•1278788
466
195 14 8*8
3 4*37-8
♦6152881
28
11 15 17*63
49*0
198 42 34-6
31932-3
•6204910
*9
11 21 30*42
5 9 45*9
42348*1
•1260858
51*2
202 6 2*2
25715-1
•6254376
- 3°
112737-34
•1241300
53'4
205 24 54-0
23451*2
•6301228
3*
11 33 38-61
N. 3 37 5?-i
0*1220165
555
2083931-5
N.2 12 25*0
9*6345434
Sept 1
113934-46
252 i8*8
•I 197497
S7'S
211 50 14*8
150 0-5
•6386973
2
11 45 25*10
2 652*7
•II73322
• I 147667
594
"457*3*5
I 2740*9
•6425830
3
115110-74
1 21 42*1
I 1*2
218 1 16*3
I 5291
•6461999
4
115651-55
N. 03649*3
*I 120550
: ;:i
221 210*9
04327-4
•6495478
-. 5
12 227*74
S. 743*7
-1091981
224 024*2
021 38-I
•6526275
6
12 759-45
12 13 26-78
12 1849-92
1224 8*92
S. 051 548
0*1061963
* 1030496
I 6*2
22656 12*6
N.O 03*0
9* 6 554395
I
135 421
i 7*7
2294951*7
S.02Z l6*2
•6579841
219 37
•0997577
' 0963 1 82
1 91
2324136-5
O42 l8*I
•6602631
9
3 iS7' 6
1 105
*35 3i4i-4
1 3 x'4
'6622768
— 10
12 2923*90
34422*3
426 15*8
•0927303
•0889917
1 n-8
238 20 20*5
1 23 24-8
•6640265
11
123434*91
1 13-0
*4* 7 47*3
143*7*3
•6655132
12
12 3942*01
S. 5 736*2
0*0850995
1 14*2
*43S4i5'i
S. 2 3 7-6
9-6667378
»3
I2 4445'*i
54821*9
* 0810505
1 153
2463956-7
22224*9
•6677006
14
15
124944-51
12 54 3988
628 31*1
7 8 i*6
•0768417
•0724688
1 16 *3
1 173
24925 4*8
252 951-9
241 18*1
2 59 46'0
•6684026
•6688442
'."'
- 16
12 5931*28
74651-6
82459*0
•0679277
1 182
*54 54 3<>*3
31747'*
•6690257
»7
13 418*60
•0632140
1 191
2573912-2
3 35*1*8
•6689473
18
13 9 1-74
S. 9 2 2i*9
0*0583223
•0532478
1 19*9
26024 9-8
8.3 5**7*4
9*6686088
19
131540*54
13 18 14*81
93857*9
I 20*6
263 935-5
4 9 3*'
•6680100
20
101444*5
•0479849
I 21*2
265 55 4i '4
4*5 7*5
•6671508
- 21
132244*32
104939*4
•0425279
•0368708
•0310081
i 21*7
26842 40*0
44039-0
•6660302
22
23
1327 8*78
133127*87
11 23 39*6
11 5642*4
I 22*2
I 22*6
2713043-8
27420 5 -6
455 35*9
5 9 56-5
•6646476
'6630023
24
133541-20
8.122844-4
o' 0249334
I 22*8
2771058*5
8.52338*7
9*6610936
*5
133948*32
12 59 42 4
•0186414
I 23*0
280 3 35- 8
53640*3
• 65 89200
26
I3 43 48-73
134741-86
132932*5
13 58 io*6
•0121261
I 23*1
28258 iz*3
5 48 58*7
'6564808
- 27
0*0053824
I 23*0
2855459-2
6 031*3
•6537751
28
135127*04
142532*4
99984057
t 22*8
28854 14*0
6 11 15*1
•6508016
29
13 55 3'5i
145132*7
•991 1923
I 22*5
291 56 10*9
621 6*7
•6475602
30
13 58 3045
S.15 16 6*o
9*9837393
•9760460
I 22*0
295 1 5*6
8. 630 2*5
9 '644050c
Oct. i
14 146-91
1539 6 '4
16 027*1
1 21*3
298 914*4
6 37 58*5
'6402710
.. 2
14 45I-S*
-9681124
I 20*4
3012054*3
64450*3
•6362235
3
14 744*02
1620 0*5
•9599430
i 19*3
I 18-0
3043622-9
65033-1
•6319085
4
14 1022*19
S.I637 38-3
9*9515442
307 55 58*5
S.655 i*7
9'627328<
Digitized by
Got
o
23 2
MERCURY, 1882.
Oct 4
***** r-
%rty\.
MEAN TIME.
Month
and
i>S<
- I
9
10
11
12
-«J
14
15
16
-17
18
- 19
20
.«'— 21
22
*3
24
26
27
28
29
;«**-3o
3»
Nov. 1
2
3
- 4
1
7
8
9
- 10
11
12
'3
"3
I?
19
Apparent
Right
Ascension.
Noon.
h m s
14 10 22'
14 12 44'
I4I4 50'
141637*
14 18 4'
14 19 8"
14 1948'
1420 2
14 19 49
14 19 6'
141752
14 16 8
141352
14 11 6
14 752
14 413
14 o 14
1356 o
13 51 3
13 47 1
1343 6
1339 9
I3 3S37
13 32 34
13 30 6
13 28 16
1327 7
13 2638
13 26 50
132741
13 29 8
13 31 10
13 334*
133642
1340 7
'3 43 54
1348 1
135225
13 57 3
14 155
14 658
14 12 11
14 17 32
1423 r
1428 36
14 34 17
'4 4Q 4
'9
61
66
*7
58
7*
84
16
17
7 %
00
31
39
35
44
26
66
•64
06
73
00
»s
is
s»
19
79
73
49
82
06
*5
39
50
'73
44
22
9 o
56
52
•30
64
46
■84
99
27
Apparent
Declination.
Noon.
S.
S.
O I *
63738-
65311-
7 628-
71719-
72531-
73050-
7 33 «"
73151-
727 0-7
71815-3
7 5I9-7
648 1-3
626 io-
559446
52847-3
4 53 335
4 H 29 .
33215-6
24744
2 159-
1 16 13
03142-5
94940
9 11 13
■i
s.
83718-
8 836-
S.
745 36
728 32
7 1722-8
7 11 59
712 4-7
71714-7
727 2*6
74059-8
75837*49
8 1927*0
843 1
9 856
93647
10 614-7
103658-8
ii 843-3
S. II 41 12'
12 14 14*
124736*8
13 21 9
s. I3 54 42'9
Log. of
True Diet.
from
the Earth.
Noon.
Meridian
Passage.
9515442
9429281
9341108
9251168
9159779
9067366
8974477
•8881797
'8790181
8700674
'8614517
•8533164
'8458264
•8391659
•8335309
•8291205
8261274
8247235
•8250439
•827173
'831137
'8368948
•8443385
•8533061
•8635907
•8749580
'8871620
•8999594
•9131224
9264465
•9397542
•9528988
•9657618
•9782522
•9903027
0018675
0129171
0234368
0334222
0428772
•0518124
0602426
0681854
0756607
' 0826888
•0892911
0954875
h m
I
I
I
I
I
I
4 3
I
I
o
o
o
o
o
o
o
o
{.!
*3
*3
*3
23
*3
*3
*3
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
18-0
I4-6
12-4
9'9
r
3'7
o-o
55'8
46-0
403
34*i
27-4
20-3
12-7
*!>
485
40*2
32-1
24-5
16-8
9-8
S'4
o 325
57
5*
48
44
4 2
38
36-8
353
34 '4
33-8
33-6
33-8
34-2
34'9
35*8
36-9
38-2
396
4i'i
42-8
44*5
46-3
48-2
Hello-
ccutric
Longitude.
Afcm.
o 1
307 55
11 20
3H48
3182s
32s a
47
32938
333 36
337 41
34»S3
34613
35041
355 «7
o 2
4 55
958
15 10
2031
26 1
3'39
37 26
4321
49"
55 30
6143
6759
74 «7
8037
8655
931a
9924
10532
11133
11727
123 13
12851
134 19
'39 37
14446
M9 45
"54 35
15916
16347
168 10
17224
176 31
180 30
O'!
47*5
412
a-i
is-o
33'o
27-5
181
27-2
16*4
6-8
17-6
5'9
45-8
27-7
i6*8
12-6
7-6
45'7
42*0
21-4
58-2
36-4
9-2
21-4
49-8
6-i
39-6
O'l
40-4
19-7
45*7
56*0
59-6
17-1
20*4
5i*9
44 # o
56-9
38*2
i-i
23-1
5'o
30-1
3""
9*4
o t
8.655 1-7
658 10*2
659 5**5
7 o i*9
65831-3
65513
Helio-
centric
Latitude.
Noon.
Log. of
Bad. Vect.
Noon.
8.64959
64241
633 10
621 18
6 655
5 49 55
a. 5 30 10
5 7 3*
44* o
413*9
34* *
3 7 43
8. a 30 43
15x15
1 940
S. o 26 25
N-o 17 57
1 253
N.I 47 39
2 31 32
31348
3 53 46
4 30 46
5 4^5
N.53348
5 59 5
61957
63619'
64818'
656 1
N.6 59 43
65942
65616
6 49 47
64034
62857
N.6 15 15
5 59 47
5 4*47
5*4 3i
N.5 5 1*
•6273280
•6224848
•6173827
-6120278
•6064274
•6005913
•594S3M
•5882643
-5818084
•5751879
•5684304
•5615709
9'5546479
•5477090
• 5408071
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MERCURY, 1882.
233
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MEAN TIME.
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le
34
vji
iHUO,
1882
•
MEAN TIME.
Month
and
Day.
Apparent
Bight
Ascension,
Apparent
Declination.
Log. of
True DisL
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude,
Helio-
centric
Latitude.
Log. of
Bad. Vect
Noon,
Noon,
Noon.
Noon,
Noon.
Noon,
h m s
1 #
h m
r *
O t H
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VENUS, 1 88a.
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'<K4«*
MEAN TIME.
Month
and
Day.
Bight
Apparent
Declination.
Log. of
TrueDist
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Rad. Vect
Noon.
Noon.
Noon.
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1 2052*84
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2
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1882
•
MEAN TIME,
Month
and
XT
Aiociniioii
Apparent
Declination.
Log. of
True Dirt.
from
the Earth.
Meridian
Passage.
Hello-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Rad-Vect.
Day.
Noon*
Noon.
Noon.
Noon.
Noon.
- Noon.
te m •
# *
b m
t *
or*
Apr. 3
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2 2 36-46
"47 9-3
•2229945
49 35 50*4
1 29 26*6
•8588247
ii
2 7**'35
121425*9
-2224352
48*9
51 12 6*3
x 24 17*0
•85874*7
12
2 12 i' 10
12 41 24-9
-2218611
497
524824*0
X19 33
-858661 1
15
21644-74
13 8 57
'2212724
50-5
54*4 43*4
11345-8
'8585801
14
221 29-30
1334274
-2206688
51-3
56 x 4-6
x 824-6
•8584996
IS
2 26 14*80
N.14 029*}
1426 10*6
O-2200503
52*1
573727-68,1 3 0'2
9*8584198
16
231 1-28
-2194167
•2187678
52*9
53-8
59I3 52-4 057 32-6
'8583406
11
23548-74
14 51 30*6
605018*9 O52 2*2
•8582622
240 37*21
15 1628-5
2181030
54*6
622647*3' 04629-3
•8581846
»9
245 26-71
i54i 35
-2174225
555
64 317*5
04054-0
-8581079
20
2 50 17*24
16 5 15*0
-2167265
56-4
°5 39 49*5
035 x6-6
•8580322
21
255 883
3 1-48
N.1629 2*1
0*2160147
57/4
58-3
67 1623*2
6.02937*5
9 "8579574
22
165224*1
'2152870
685258-8
023 56*8
•8578837
23
3 455*21
171520*3
•2145433
■2137836
59-3
702936*3
18 14*9
•8578112
*4
3 950*02
I7375OO
I 0*2
7a 615-5
12 32*0
•8577398
*5
31445-01
3194289
I759523
l8 21 26-5
•2130078
I 1*2
734256-5
648*4
•857*5697
26
•2I22I00
I 2'2
75x939*4
8.0 1 4*4
-8576009
3
32440-97
N.1842 32'0
0*2II4oSo
I 33
76 56 24* z
N.O 439-7
9*8575334
32940-15
19 3 8l
•2IO5838
* 43
7833 io*6
1023*8
•8574673
*9
33440-42
I923 14*0
•2OO7433
-2088866
: n
80 958*9
16 7*5
•8574027
30
33941-78
I94249O
81 4649*1
021 50*5
•8573397
May 1
34444*23
20 152*5
-2080135
1 n
832341*0
02732-5
•8572781
2
3 4947*77
202023*7
'2071240
85 034*7
033i3*4
• 8572 1 8a
3
3 54 5*'37
N.20 38 22'I
0'2062l8l
I 98
863730*1
N.o 38 52*7
9*8571600
4
35958*03
20 55 47*0
•2052957
I II'O
881427*4
044 30*3
•85710.34
5
4 5 4'74
21 12 37*7
-2043568
I 12-1
8951 26*3
050 5-8
•8570486
6
4 10 12-48
21 2853*7
'2O34OU
I I33
91 2827*0
©55 39*1
•8569956
I
4 1521-23
2144342
•2024285
I I45
93 5*9*3
1 1 97
•8569445
42030-97
21 59 38*8
-2014391
I 15-7
94 4*33*4
1 637*6
•8568953
9
42541*66
N.22 14 6-7
O-2OO4326
I 17*0
961939*1
N.i 12 2*3
9*8568480
10
43053-29
222757-5
' I994089
I l8'2
975646*4
x 1723-6
•8568027
11
436 582
2241 io*5
•I983678
I 195
99 33 55*3
1 22 41*2
•8567593
12
441 19-22
22 53 45 4
•I973089
1 20-8
101 ix 5*8
12755*0
•8567180
13
44633-44
23 54J5
23 1658-4
'1962322
I 22*1
10248 17*8
133 4*6
•8566788
14
45148-46
•1951374
I 234
1042531*3
138 9-8
* 85664 1 7
»5
4 57 4"23
N.23 2735-5
0*1940244
i 24*7
106 a 46*3 N.i 43 10*4
9*8566066
16
5 220*70
23 37 3 2 '5
•I928931
I 260
10740 2*7
148 6*o
•8565738
!i
5 7 37-83
234648-9
•I9I7434
I 274
109 17 20-5
15256*5
•8565431
51255*56
23 55 245
•1905750
I 287
"05439-6
15741*7
•8565147
19
5 18 13*83 N.24 3 18*8
0*1893878
I 30*1
1123159*917.2 2 ii*2 9*8564885
Digitized by VjOOQ IC
VENUS, 1 88a.
235
X/uZfrJtt
7/ cOc
MEAN TIME.
Month
and
Day.
Apparent
llight
Atcention.
Noon.
3/
May 19
.*/ *°
21
22
*3
*4
2
2
*7
28
29
«*e -3°
3*
June t
2
3
4
5
6
9
10
11
12
13
«4
:i
»7
18
19
20
21
22
*3
*4
;i
3
*9
30
July 1
2
3
4
b n 1
51813-
5 2332-
52851-
5 34 «•
5 39 3 1 "
5445«
55011-
I 55 3*
6 052'
6 6 13'
6 11 33
6 1653'
622 14'
62733
63253
638 12'
f43 3I
64849'
f54 7'
65924
7 4 4i
7 9 56
7 15 12
72026
7*5 39
73051
736 3
74«>3
74623
75«3*
75638
8 144
8 649
8 11 52
8 16 54
82155
8 26 54
I 3 ! 53
83649
84145
8 46 39
851 31
85622'
9 I 12'
9 6 0'
91047
9 «£.3*:
Apparent
DeeUnal'
ition.
Noon.
«3
59
78
35
12
63
H
59
92
06
95
76
84
59
73
22
99
00
»9
'5«
91
•76
•11
36
•46
3
96
84
'20
16
69
78
69
I?
O I
N.24 3 18 -8
24. 10 ji -4
24 17 2'I
242250*7
2427569
24 32 20'4
N.24 36 I
243858
2441 13
24 42 45 o
H43 33'*
2443 382
N.24 43 o a o
2441 38*6
24 39 34' *
243646-6
243316
2429 3
7'4
5
N.24 2
24 1829 _
2412 9-6
24 5 7-8
235724-6
2349 0'2
N.23 39 55
2330 95
231944
23 839*2
22 56 55 4
224433
N.22 31 32*8
22 17 55
22 340
214849
213323
21 1721
045-2
>43 3S
^36-2
48*6
N.21
20
2025 52*0
20
19
19
N.i
18
18
N.17
6
2929-7
940-3
4021
28 32
7 15
45 30 9
Log. of
True DUt.
from
the Earth.
Noon.
893878
881819
869570
857128
844496
831673
818659
805453
7920
778463
764677
750699
736527
722162
707602
692848
677898
662754
64741 1
631867
616122
600179
584032
567679
551117
534345
517362
500168
482761
465136
447*93
429233
410955
39*457
373738
354797
335*34
316252
296647
276818
256766
236494
215909
195280
i 74337
153168
*3*774
Meridian
Fauage.
30*1
3*5
32-9
356
37-0
38-4
39-8
42*6
440
45*4
46-8
48-2
496
510
523
53*7
56-4
57*7
591
0-4
«*7
**9
4-2
I' 4
6-7
7*9
91
10-2
114
13-6
158
16*9
179
18-9
199
20-8
21*8
2 22*7
2 23-6
2 24-4
2 26*0
Helio-
centric
Longitude.
Noon.
o 1 i
1113159-9
1x4 921-5
I154644-3
11724 8*2
119 133*
1203859-2
122 l6 l6" I
»*3 53 53 # 9
I25 31 22*6
127 851
128 46 22
130 23 52
132 1239
133 3* 55*6
133 16**7*6
13654 0*0
138313a
140 9 5-2
141 4638*017,
1431410-7
»4J 1 43*3
14639157
148 1647-8
149 54 19*5
151 3150-8
153 9*»'5
1544651-6
1562421*0
158 149-5
1593917
161 1643
16254 93
1643133
166 856
16746 18-6
169 23 39-0
171 057-9
1723815-3
174 15 30*9
*75 5*44*9
1772957-0
179 7 7*
1804415-4
182 21 21*6
1835825-8
18535*7-7
187 12 27*5
Helio-
centric
i*MM«
tf.
f *
2 21
6 54
II 22
15 43
I958
24 6
28 76
32 1-6
35 48
39*7
4*59
4622
49 38-4
5245-8
55 45*0
5*35*0
117-7
3 5o-9
6153
830-7
1037-0
1234-1
1422*0
16 0*4
1729-4
1848-9
1958-8
2059
2149
22 30
23 1
23 2i*9
*3 34*5
2336-2
2328-2
23 10-4
2242-9
22 5-7
21 i8*8
20 22 '3
19 l6'2
18 o-6
1635-5
15 1
i3«7'4
1124-5
9 22*69
Log. of
Bad. Veot.
Noon.
69
Digitized by
Gc~
o
238
VENUS,
1882
•
MEAN TIME.
Month
and
Daj.
AfpOTOnt
Bight
Aeeenaion.
Apparent
Decimation.
Log. of
True Diet
from
the Earth.
Meridian
Paeeage.
Helio-
centric
Longito.de.
Helio-
centric
Latitude.
Log. of
Had. Vect
Noon,
xVOOft*
Noon.
Noon.
Noon,
Noon.
h m •
/ ♦
h m
§ *
1 *
July 4
915 32*86
N.1745309
0*1131774
2 26*0
187 1*17*5
N.3 922*6
9-8577049
5
9 20 16' 80
1723 19*0
•IIIOI53
2 268
1884925*0
3 711*6
•8577755
6
92459-32
17 040*6
* 1088304
2 27*6
1901610*1
3 451-8
•8578473
I
92940-44
9 3420*16
1637365
'1066227
2 28*3
191 3 13*0
3 113*2
•8579203
16 14 75
155013*8
•1043919
2 2 9 *I
19340 3*4
25946*0
•8579944
9
93858*51
•IO21377
2 29*8
1951651-3
157 0*3
•8580695
10
943 35*48
948 11*09
95245-36
N.I5 25 56-6
0*0998599
2 30*4
1965336-7
H.254 6*3
9*8581456
ii
15 1165
•O975583
2 31*1
19830 19*6
251 4*0
•8582227
ii
143614*5
14 1050*6
0952327
•0928827
2 31*7
200 659*8
* 47 53*8
•8583005
»3
95718*32
2 32*3
*oi43 37*5
*44 35'7
•8583792
14
10 149*97
1345 6-i
'O90508 I
2 329
203 20 12*5
241 98
•8584585
»5
10 620*32
13 19 1*7
•0881088
2 33-5
2045644*8
23736*4
•8585385
16
101049*39
N.12 52 38*1
0*0856845
2 34*0
2063314-4
N.* 33 55' 7
9*8586191
\l
10 15 17*20
12 23 55*9
11 58 550
11 31 388
•0832350
-0807602
* 34*5
208 9413
230 7*7
•8587003
101943-78
2 35*0
•0946 5*+
2 16 12*8
•8587819
»9
1024 9-14
•0782598
* 35*5
211 2226*8
212 II'O
'8588639
10
102833-30
10 36 16*2
•0757337
-0731819
* 35*9
212 58 455
218 2*7
■8589463
SI
10 32 56*30
2 36*4
"435 i'4
2 1348*0
•8590289
22
1037 18*15
N.io 8ia-i
0*0706041
2 36-8
216 11 14*5
N.l 917*1
9*8591117
*3
1041 38-88
93953*8
* 0680002
* 37*5
2174724*9
1 5 0*3
•8591947
*4
104558-52
Q II 21*9
84237*1
•0653702
2 37*6
2192332*4
1 017*7
•8592777
*5
1050 17*09
•0627138
2 38*0
2205937-2
155 49-5
•8593608
26
105434*62
8 1340-2
' 06003 IO
2 38*5
2 38*8
2223539*3
1 51 6*o
•8594439
27
1058 51*14
744 3i'9
•0573217
224 11 38*7
14617*5
•8595268
28
11 3 6*67
N. 7 15 12*7
0*0545858
•0518232
2 38-9
"5 47 35*4
N.l 41 24' I
9*8596095
29
11 721*25
64543*3
2 39-2
2172329*4
I 3626-0
•8596920
30
111134*91
616 4-5
•0490338
2 39*5
2285920*7
I 31 23*6
•8597742
3i
111547*67
54617-0
-0462176
2 39*8
23035 9*5
I 26 17*1
•8598561
Aug. 1
11 19 5957
5 1621*3
'0433744
2 40*1
232 1055*6
ill 6*6
•8599374
2
11 24 10*65
446 i8-o
-0405041
2 40*3
2334639*2
11551-5
•8600183
3
11 28 20*95
N. 416 7-8
0*0376063
2 40*5
235 22 20*3
N.I 1034*9
9 • 8600986
4
11 32 30*50
34551*3
-0346809
2 40*7
2365758*9
I 5 14*2
•8601783
5
113639*33
3 15 29-2
•0317276
2 40*9
2383335*1
05950*6
•8602574
6
114047*49
245 21
-0287464
•0257368
2 41*1
240 9 8*8
054*4*3
•8603356
I
114455-00
2 14 30*6
2 41-3
2414440*2
048 55-7
•86041 3 1
11 49 1*90
143 55*3
-0226981
2 415
14320 9*3
04324*9
•8604897
9
1153 8*22
N. 1 13 17*0
O-0196301
2 41-6
244S5 36**
Jf.o 3752*2
9*8605654
10
II 57 14*00
042 36*2
-0165324
2 41*8
246 31 o*9
32 17*9
• 8606401
11
12 I I9*25
N. 11 53-7
•OI34047
2 41-9
248 623*5
26 42 * I
•8607138
12
12 5 24'OI
S. 18 50-0
• OIO2466
2 42*1
*49 4*43*9
021 53
•8607864
'3
12 928*30
04934*2
•0070576
2 42*2
251 17 2*4
15 27-6
•8608578
14
12 13 32'l6
1 20 18*3
•OO38374
2 42-3
25252 18*9
949*3
•8609281
15
12 I7 35'62
S. 151 i*6
0*0005856
2 424
*54*7 33 ,4 5
N.o 410-7
9*8609971
16
12 21 38*69
22143*5
9-9973018
2 42-5
256 246*4
S. 128*1
•8610648
17
12 2541*40
2 52 23*3
•9939855
2 42*7
*57 37 57'4
7 6-6
•8611311
18
122943*78
323 0-4
•9906367
9*9872548
2 42*8
259 13 6*8
1244-8
•8611960
19
123345-85 S. 3 53 34'*
2 42-8
26048 14*5
s. 1822*2
9*8612595
Digitized by
GoT
o
VENUS, 1882,
239
5 *>**'
[ MEAN TIME.
Month
and
Bay.
Bight
Attention.
Apparent
Declination.
Log. of
TrueDist
from
the Earth.
Meridian
Pasiage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Bad. Vect.
ASkw.
Noo*.
Noon.
Aboii.
Noon.
Noon.
b m 1
e 1 »
h m
/ w
01*
Aug.19
1*33 45*85 >
S- 3 53 34^
9-9872548
2 42*8
16048 14*5
8.01822*2
9-8612595
20
is 3747-63
424 4-0
•9838395
2 42-9
161 2310*7
02358-7
•8613115
21
is 41 49- 15
45429-2
• 9803905
2 43-0
2635815-4
02934*1
'8613819
22
is 45 50-44
52449-2
•9769074
2 43-1
1653328 -7
35 7"9
'8614407
23
is 49 51-50
555 3'3
•9733901
•9698382
2 43-2
167 830*7
04040*1
•8614979
24
i*53 5**35
625 10*9
2 43-2
2684331-4
O46 10*2
•86x5533
*?
is57 53*os
S. 655 11*4
9-9662514
2 43-3
17018 30*9
8. 051 38*2
9*8616071
13 1535s
725 4-1
-9626292
2 43-4
1715319-3
057 38
'86x6591
3
13 5 53*86
75448-4
82423-8
•9589715
2 434
173 2826*7
1 226-7
'8617093
13 954*08
•9552778
* 43'5
275 323-1
1 746-6
•8617576
*9
131354-18
8 53 49*7
•9515484
2 43-6
27638 18*6
1X3 3-4
•86x8041
30
13 »7 54* 19
9*3 54
•9477827
2 43-6
278 13 13*2
xi8x6-8
•86x8486
3 1
13 si 54- is
S. 952 10*3
9 9439803
2 43-7
27948 7 # i
8.1 2326*5
9*8618912
Sept. 1
13*5 53*99
132953-83
1021 3-9
•9401409
2 43-7
281 23 0-4
12832-4
•8619319
s
104945-6
11 18 14*9
•9362639
2 43-8
2825753-0
1 33 34* »
'8619705
3
*3 33 53* 6 5
•9323491
2 43-8
28432451
x 3831*6
'8620071
4
i3 37 53*46
1146312
•9283957
* 43'9
286 736-7
143*4-5
'8620416
5
134153-87
12 1433*8
•9244031
2 439
2874228*0
148 12*6
•8610741
6
i3 45 53*09
S. 12 42 22*1
9-9203708
2 44-0
289 17 18*9
8.15255-8
9*8611044
I
I3 49 5S-93
13 955-6
•9162081
•9121843
2 44-0
29052 9*5
15733-8
'862x326
13 535s -77
1337136
2 44-1
2921659*9
2 2 6*3
•8621587
9
13 575s- 6s
14 415-6
•9080284
2 44-2
194 150*1
2 633*3
'8621825
10
14 I5S-47
1431 I'O
•9038299
'8995882
2 44*2
1953640-5
2 10 54*4
' 8622042
11
14 5 5S-32
14 57 29- 1
2 44-3
197 n 30-8
215 9-6
'8622237
IS
14 95s- 16
8.152339-3
9-8953026
2 44-3
1984611*1
8.2 19 x8'6
9*8622410
>3
14 135198
1549 312
1615 4*i
'8009720
-8865961
2 44-4
300 21 II *5
2 23 21'X
'8622560
«4
141751-77
2 44-4
3OI56 2*2
2 27 17*2
•8622687
!i
14 si 51-50
1640 17*4
-8821744
* 445
303 30 53'I
231 6*5
'8622793
i4*5 5i*H
142950-68
17 510-4
•8777060
2 44-5
305 5 44' *
23448-9
•8622875
»7
172942-7
•8731899
2 44*6
3064035-8
23824*2
•8622935
18
143350-07
S.i7 53 53 % 7
9- 8686258
2 44-6
3081527-7
8.24152*3
9*8622972
^ «» -»9
14 37 40 -S9
144148-30
18 1742*9
'86401 3 1
2 44-7
309 50 20' X
245 13-0
'8622986
so
1841 9-7
•8593510
2 44-7
3X1 25-13-0
24826-2
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VENUS, 1882.
MEAN, TIME.
Month
and
Day.
Apparent
Right
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Apparent
Declination.
Log* of
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from
the Earth.
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Fueaage.
Uelio-
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Helio-
centric
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Log. of
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VENUS, 1882.
241
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Month
and
Day.
Apparent
Right
Ascension.
Apparent
Decimation.
Log. of
True DisL
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude,
Helio-
centric
Latitude.
Log. of
Rad. Vect
Afim.
Noon.
Noon.
Noon.
No**.
Noon.
h m s
or*
h m
1 »
/ »
Nov. 1 9
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(NAUTICAL ALMANAC, 1882.)
Digitized by
Google
>4 2
1Y1/
Ltld, I
882.
MEAN TIME.
Month
aad
Day.
AppBfCRt
Right
Aacenaion?
Apparent
Declination.
Log. of
True Dial
from
the Earth.
Meridian
Faaaage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
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Noon.
Neon.
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Noon,
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1 *
h m
1 *
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Digitized by
Google
I?
J AltO,
1882
•
243
MEAN TIME.
Month
and
JHj.
Apparent
Right
Ascension.
Apparent
Declination.
Log. of
True Disk
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Bad. Vect
Noon.
Noon.
Noon.
Noon.
Noon.
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Feb. 1 6
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Digitized by
~
B 2
O
244
MARS, 1882.
♦•**•
MEAN TIME.
Month
•j and
Day.
Apparent
Right
Ascension.
Apparent
Declination.
Log. of
True Dial
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Bad. Vect
TVbon.
Noon,
Noon.
Noon,
Noon.
Noon.
h m s
/ ♦
h m
9 *
/ »
Apr. 3
657 9-81
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6 9-8
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4
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7 55 5'59
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MARS, i
[882.
245
-
MEAN TIME.
Month
and
Day.
1
Ascension.
Apparent
Declination.
Log. of
True Dirt.
from
the Earth.
Meridian
Passage.
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centric
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Helio-
centric
Latitude.
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Noon,
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Noon.
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9 *
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May 19
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Digitized by
Goo
o
246
BL
ARS, i
[882.
MEAN TIME.
Month
and
Day.
Ascension.
Apporont
Declination.
Log. of
True Dirt.
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude,
Helio-
centric
Latitude,
Log. of
BaiLVect
iftoa.
Noon.
Noon.
Noon.
Noon.
Noon.
h m •
t *
h m
t *
t *
July 4
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0-3*38793
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23
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29
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30
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2 45-0
192 616-5
1 6 8-3
-2121401
. 3 1
111932-41
* 43*3
1913338-8
1 525-6
•2119235
Aug. 1
11 21 49-08
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193 * *'8
1 442-6
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9
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0*3622105
2 28*4
1964115-5
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0*2098724
10
114224-47
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• 3630400
2 268
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•2096334
11
114442-44
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2 25*1
1973636-3
057 16-7
•2093922
12
n 47 0-56
2 731*4
' 3646630
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13
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16
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0*3699691
2 13*7
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20051 18*0
201 19 14*6
05148*1
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•2076439
0*2073856
Digitized by
o
MARS, 1882.
24:
MEAN TIME.
Month
and
Day.
Apparent
Right
Ascension.
Apparent
Declination.
Log. of
TrueDist
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
RaAVect.
iYom.
Noon.
Noon,
Noon,
Nam.
Noon.
,.,
h m •
1 *
h m
/ *
t it
llAug.19
12 3 12*20
N. 17 23*6
0*3699691
2 12' I
201 19 14*6
N.051 o-i
0*2073856
1 20
12 5 3 I- 75
N. 134*5
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050 u*8
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1 2l
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030 6*7
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2 8-9
202 15 13*6
04923-3
-2068628
1 22
12 10 11*45
•3720680
2 7-3
20243 x 6'*
048 34*6
'2065983
I *3
12 12 31*60
04558*5
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2 5-7
203 11 20' 8
47 45*5
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1 H
12 1451*96
1 151*0
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2 4-1
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04656*2
-2060632
\i
12 17 I2'55
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0*3740654
2 2*5
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0*2057926
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•3747090
2 09
*°4 35 47'i
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12 21 54*40
1224 15*07
14931*8
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1 593
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2%
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1 530
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Sept 1
123343*33
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3 9 4'8
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1 51*4
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2
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19
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0*3888480
1 16*8
2182939*3
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0*1967960
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13 32 18*40
926 9*9
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26
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1 14*0
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3
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29
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i 9*8
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~ 30
134459*07
S.1042 6*8
0*3907339
•3910168
1 8*4
221 26 33*6
N.O 13 57*2
0-1948135
Oct. 1
134732*58
1057 8*o
1 7*0
221 56 12*1
0x3 0*2
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%
1350 6*58
11 12 5*6
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0*3918120
1 29
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0*1934626
Digitized by
Googk
Z4«
MARS, 1882.
MEAN TIME.
Month
and
Day.
Apparent
Right
Ascension.
Noon.
Apparent
Declinatio
Noon.
Log. of
True Dist.
from
the Earth*
Noon,
Meridian
Passage,
Helio-
centric
Longitude.
Noon.
Helio-
centric
Latitude.
Noon.
Log. of
Had. Vect.
Noon.
Oct 4
•i
9
10
11
12
13
15
16
\i
20
21
w 22
-23
24
26
27
28
29
30
3*
Nov. 1
2
^7«!r
■3
4
i
7
8
9
10
11
12
13
14
:i
17
18
19
h m •
I3S5I6
I3S7 5I
14 027
3 4
541
818
H
14
'4
14 10 56
'4 'J 35
14 ID 14
14 18 53
14 21 34
14 24 14
14 26 56
14 29 38
14 32 20
'4 35 3
'4 3747
14 40 31
1443 «5
1446 1
144846
14 5' 33
14 54 20
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14 59 56
15 244
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15 824
15 11 15
15 14 6
15 1658
15 19 50
152243
152537
1528 31
15 31 26
153422
15 37 18
15 40 15
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1546
1549
1552
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16 1
16
411
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00
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31-9
308
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228 25 49*5 N.o 026*8
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2363649-9
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133
124
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10-5
23913 0-4
23944240
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2404721*1
241 1854*6
2415031-3
242 22 XI '3
»4* 53 54* 6
2432541-2
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244*9*4" 3
245 1 20*8
2453320-7
246 523-9
2463730-5
247 940-4
02020*7
021 20*5
22 20*3
23 20*0
02419*8
8.0 25 19*5
026 19*2
027 18*8
028 18*4
o 29 18*0
030 17*6
S.o 31 17-1
032 16*5
033158
03415-1
S.0 35 «4'3'o'
' 1934626
1931214
1927789
192435 1
' 1920899
19-7435
1913958J
19x0468
x 906967
i9<>3454
1899929
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1 79001 8
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'76744o i
Digitized by
Googk
MARS, 1882.
249
MEAN TIME.
Month
and
Day.
Apparent
Bight
Ascension.
Apparent
Declination.
Log. of
True Diet
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
RaiVect
Noon.
Neon.
Noon.
Noon.
Noon.
■Noon.
h m •
1 t
h m
1 n
l n
Nov. 19
16 411*91
S.2I 9 0'2
0-39459*3
10*5
147 9 40'4
8.03514*3
0-1767440
20
c6 714-13
16 10 16*92
211749*8
•394482 2
•3943598
9*6
8-7
H7 4i 53*7
03613*4
•1763671
21
21 2627*8
248 14 xo'3
03712-5
• 1759900
22
16 13 20*28
16 16 24*21
2134542
•3942309
7*9
2484630-3
038 xi*4
•1756130
*3
2143 87
•3940956
7-0
2491853-7
039 10-3
* "75*359
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16 1928-71
21 51 II'I
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O'l
2495120-5
040 9*0
•17485881
25
16 22 33*78
S.2159 1-3
0-3938063
5*3
25023 50*7
S.041 7*6
0-17448181
26
162539-42
22 639*2
•3936525
4*4
2505624-3
042 6*i
*x 741049:
3
162845*61
22 14 4*6
•3934928
3*6
25129 1-3
043 4*5
-1737281
1631 5235
163459-64
22 21 17*4
•3933271
2'8
252 141-8
044 27
•*7335*4j
*9
22 28 I7-5
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1-9
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045 o*8
•1729750
30
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2235 4*6
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i'i
253 7129
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- 1725988
Dec. 1
1641 15-82
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0-3927948
fo oil
Its so*!/
23 58-7
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S. 046 56' 6
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23 57-9
•*5445 55*
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17 1620-35
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23 50-6
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H
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♦ «S
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Digitized by
Google
2SO*
JUPITER,
1882.
MEAN TIME.
Month
and
Day.
Apparent
Bight
Ascension.
Apparent
Declination.
Log. of
True Dist
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Rad. Vect
Noon.
Noon.
Noon.
Noon,
Noon.
Noon.
h m 8
1 *
h m
1 »
/ w
Jan. I
25644-36
N.i5 44 33*2
0*6411439
8 II'2
55 33 50*4
8.05420*7
o" 6997880
2
25637*11
154420*0
•6424662
8 7-2
553912-9
o54i5*3
* 6998097
3
2 56 30*68
154410*3
'6438004
8 31
55 44 35*3
o54 9*9
•6998314
4
2 5625*07
2 5620*28
1544 4*2
•6451457
7 59'i
55 49 57' 7
54 4*5
•6998531
5
1544 i*6
'6465016
7 S5*i
555510-0
053 59*1
•6998748
6
2 56 16*32
1544 2*6
•6478675
7 5«*»
56 042-3
05353*8
• 6998968
i
2 56 I3'l8
N.1544 7-2
0*6492430
7 47'i
56 6 4*6
8.05348*4
0*6999185
256 10*87
256 0*38
256 8*72
I5 44i5'4
•6506276
7 43*2
561116-8
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•6999405
9
154427-1
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7 39*2
56 1649-0
053 37*7
•6999625
10
154442-4
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7 353
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ii
256 8*88
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0*7000509
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• 7000730
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15 52 20-1
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15 54 H' 3
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N.I5 55 3I-3
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6 37-8
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26
2 5749*53
258 2*65
155641*5
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155755*0
•6779349
6 30-4
5753*3**
05159-7
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2 58 16*54
155911-6
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6 26*7
575844*7
05154-2
•7003867
29
2 5831*19
16 031-2
•6808412
6 23*0
58 4 6-2
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•7004093
30
2 5846*60
16 153*9
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6 193
58 927-7
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2 59 2*76
N.16 3 19-6
16 448-3
0*6837597
•6851851
6 15-7
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8.051 37*6
0-7004547
Feb. 1
25919*67
6 12*0
582010*6
051 32*1
•7004774
2
2 59 37*32
16 620*0
•6866274
6 8-4
5825 319
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- 7005002
3
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3 014-81
16 7546
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6 4-8
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051 20*9
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4
16 932*0
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6 I'2
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5
3 034-64
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5 57'6
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051 9-7
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6
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0-6923593
•6937814
5 54-o
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0*7005918
7
3 * l6 '43
3 138*38
16 1440*9
5 50'4
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05058*6
'7006148
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16 1629-3
•6951985
5 46-8
585739*5
05053*0
•7006378
9
3 2 rot
3 224*36
16 18 20-3
'6966104
5 43*3
59 3 o-6
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* 7006608
10
1620 13-9
•6980167
5 397
59 821-7
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• 7006839
11
3 *48'38
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5 3*'*
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5 25*7
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5 22*2
59 35 6*7
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•7007998
3 458*53
N.1632 27-3
5 187
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8.050 7-9
0*7008231
Digitized by
Google
JUPITER, 1882.
251
tr.7<v,
MEAN TIME.
1
Month
and
Apparent
Right
Attention.
Apparent
Declination.
Log. of
True Dirt.
from
the Earth.
Meridian
Pauage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Had. Vect.
MOB.
Noon.
Noon.
Noon,
Noon.
Noon.
h m ■
O 1 H
h m
/ H
1 w
1
Feb. 16
3 458-53
N.1632 27*3
* 7063209
• 7070800
5 l8 '7
594027-6
8.050 7-9
0*7008231
11
3 526*52
163437*8
5 l 5* z
59 45 48-4
050 2*3
'7008464
3 55515
16 3650*4
•7090312
5 ii*8
5951 9-2
04956*6
•7008697
19
3 624*42
1639 5*2
•7103742
5 83
595630*0
04950-9
-7008931
20
3 654-50
3 724*80
l6 41 22*1
•7117088
5 4*9
60 150-7
04945-2
-7009165
21
164341*0
•7130347
5 i-5
60 711*4
04939-5
•7009399
22
3 827*62
N.i 6 46 2*0
0*7143516
•7156594
4 58-i
60 12 32' 1
8.04933-8
0*7009634
23
164824*8
4 54-7
60 17 52*7
04928*1
•7009869
24
3 859*9*
3 932*81
165049*6
•7169578
4 5i-3
6023 13*3
04921-4
•7010105
*5
1653 10*1
•7182467
4 47*9
602833-8
049 16-7
-701034 1
26
3 10 6*27
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•7195258
4 44-5
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27
3 1040*30
16 58 14-6
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4 4i'i
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-7010814
28
3 11 14*88
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0*7220540
4 37-8
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8.04859-6
0-7011050
Mar. 1
3 11 50*02
17 319*8
•7233028
4 34'4
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•7011287
2
3 12 25*70
17 5 54-8
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4
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4 21-1
61 11 16-9
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6
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417-8
61 1637*2
8.04825-0
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8
3 15 32*00
3 16 10*80
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4 14-6
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61 21 57*4
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6127 17-5
.
9
3 1650*09
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4 8*0
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10
3 1729*87
172725*5
• 7340582
4 4'7
613757-7
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11
3 18 10*13
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4 i'4
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12
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3 1932*08
N.1733 °-5
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3 58-2
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3 54-9
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3 20 13*76
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3 51*7
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32055*90
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3 48-5
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16
321 38*48
1744 22*8
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18
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0*7448366
3 38-8
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19
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22
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3 26 48 * 70
3 20*1
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18 448-1
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3 22*9
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3 2734*66
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3 197
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3 28 21*01
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26
329 7*74
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18 1342*2
18 1041*0
•7508124
3 13*4
63 314-2
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•7017315
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•7517505
3 10*2
63 833-6
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•7017560
28
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18 1940-2
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29
3 31 30*16
18 22 39*7
•7535866
3 4*0
63 19 12*4
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30
33218-35
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0*7544846
3 o*8
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8.046 4-7
0*7018298
3*
1828 39-4
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* 57'7
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Apr. 1
3 33 55-76
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* 7562404
2 54*6
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2
3 34 44*97
183439*9
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3
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0-7019285
o
252
JUPITER, 1882.
MEAN TIME.
Month
and
Day.
Ascension.
Apparent
Declination.
Log. of
TrueDist.
lYom
theBarth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Bad Vect.
Abo*.
JNOOM.
Noon.
Noon.
Nam.
Noon.
h m •
r •
h m
1 *
/ *
Apr. 3
3 35 34*51
N.l8 3740-t
I84O4VV8
o" 75794*3
2 48-4
634549-0
8.04541*1
0*7019285
4
3 3 6 *4*37
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* 453
6351 8*2
04S3S-I
* 7019532 1
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3 37 H'SS
3 3» 5 o4
l84t4I-5
l8 4641'8
•7595901
2 42*2
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04529*1
•7019780,
•7603037
•761 1836
2 30- 1
2 36*0
64 146*41 45*3*1
•7020028.
1
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l8 494a-3
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33946-95
I8S2 42-7
•7619599
2 32-9
64 12 24*5
04511-3
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9
3 40 38- 35
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185843-1
0-7627224
2 29-8
2 20-7
64 17 43*5
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10
34130-05
•7634712
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11
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2 23-7
64 28 21*5
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12
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3 44 6-85
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1 38-1
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6
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1
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9
4 81093
N.20 22 9-5
0-7790467
59*3
665656*7
8. 042 3*4
0-7028385
10
4 9 8*79
202450*1
•7793707
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56-3
67 2 14*6
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11
410 6*77
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2030 O'O
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041 51*1
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12
4" 4*87
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67 12 50*3
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2035 21*5
•7805239
44-4
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041 32*6
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15
41359*85
41458*39
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41-5
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0-7029937
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041 7*8
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4i7 54*54
N.20 48 4-7
0*7816417
29*6
67 4953-9S.04I 1-60-7030977
Digitized by
jOOQ
JUPITER, i88*.
*5;
MEAN TIME.
Month
and
Day.
Apparent
Hight
Ascension.
Apparent
Declination.
Log. of
TroeDist.
from -
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Rad. Vect.
JVocm.
Noon,
Noon.
Noon.
Noon.
Noon.
h m s
1 *
h m
1 *
t *
May 19
4I7 54-54
N.2048 4-7
0-7816417
29-6
67 49 53-9
3.041 i*6
0-7030977
20
41853-41
2050 33-6
'7818220
O 26*7
6755 ""4
04055-4
•7031238
21
41952-36
2053 1-3
•7819880
23*7
68 028-9
40 49 * 2
•7031499
22
42051-37
205527-7
205752-8
•7821396
20*8
68 546-3
04043-0
•7031760
23
42150-44
•7822769
17-8
68 11 3*7
04036*8
•7032021
24
42249-57
21 16-6
•7823999
14-9
681621*1
04030*6
•7032283
2 I
42348-74
N.21 239*1
0-7825086
n*9
6821 38*4
8.04024*3
0*7032545
26
4 2447*95
21 5 0*2
•7826031
9-0
682655*7
040 18*1
'7032808
27
42547-20
21 720*0
•7826833
6-o
68 32 12*9
40 1 x * 9
•7033071
28
4 2646*49
21 938-4
•7827493
•7828012
3-1
68 37 30*1
040 5*6
-7033334
29
42745-81
21 1155*4
IS i'D
684247-3
03959-4
•7033597
30
42845-15
21 14 II *I
•7828389
23 54-2
6848 4*5
03953*1
•7033860
31
42944-51
N.21 16 25-3
0-7828625
23 51-3
685321*6
S. 03946-9
0-7034124
June 1
43043-88
21 1838*0
•7828720
23 48'3
685838*7
03940*6
•7034388
2
43i43'27
21 2049*3
•7828674
23 45*4
69 3 55*7
03934-4
•7034652
3
43242-67
21 22 59*2
•7828487
23 42*4
69 912*7
03928*1
•7034916
4
43342-07
21 25 7*6
•7828160
23 395
69 1429*6
039 21*8
•7035181
5
4 344^47
21 27 14-6
•7827692
23 36-6
69 1946-5
039 15-6
•7035446
6
43540-86
N.21 2920*1
0*7827082
23 336
6925 3*4
8.039 9*3
0*7035711
1
43640-24
21 31 24'I
•7826332
23 30-7
693020*2
039 3-0
•7035976
43739-61
4 3»38-9 6
21 33 26-6
•7825441
23 27-7
693537*0
038 56-7
•7036242
9
21 3.5 27-6
* 7824408
23 24*7
23 21-8
694053*8
03850*4
•7036508
10
43938-28
21 37 27-1
•7823234
6946 io*5
03844-1
•7036774
11
440 37-57
21 39 25*0
•7821918
23 18-9
6951 27-2
03837-8
•7037040
12
44136-83
N.21 41 21*5
0*7820461
23 15*9
695643*8
8.03831*5
0*7037307
13
44236-05
21 43 16-4
•7818861
23 13-0
70 2 0*4
038 25*2
•7037574
14
44335-21
2145 9'8
•7817120
23 io-o
70 7 17-0
038 18-9
•7037842
15
44434-32
2147 l '&
•7815236
23 7-0
701233*5
38 12-6
•7038110
16
44533*37
2148 51-9
•7813211
23 4'*
70 1750-0
038 6*3
•7038378
17
44632-36
21 5040*7
•78 1 IO44
23 i*i
7023 6*4
37 59-9
•7038646
18
44731-27
N.21 52 27-9
0*7808736
22 58-2
702822*8
8.03753-6
0*7038914
*9
44830-10
215413-5
•7806287
22 55*2
703339-2
03747*2
•7039182
20
44928-84
2i55 57'5
•7803697
• 7800968
22 52-2
703855*5
3740-8
•7039451
21
45027-50
21 5740-0
22 49-3
704411*8
37 34-5
•7039720
22
451 26-06
21 5920-9
•7798099
22 46-3
704928*0
037 28-1
•7039989
23
45224-52
22 1 0*2
•7795090
22 43-4
705444*2
03721*7
•7040259
24
45322-87
N.22 2 37-9
0-7791943
22 40*4
71 0*4
8.03715-4
0*7040529
*5
45421-11
22 414*0
•7788657
22 37-4
7X 516*5
037 9*0
•7040799
26
45519-24
22 548-6
•7785233
22 34-5
71 1032-6
037 *'7
•7041069
27
45617-25
22 721*6
22 853-0
'7781671
22 31-5
711548-7
03656*3
•7041339
28
45715-13
•7777972
22 28-5
71 21 4-7
03649-9
•7041610
29
458 12*87
22 1022*9
•7774135
22 25-6
71 26 20-7
03643*5
'7041 88 1
30
45910-49
N.22 11 51-2
0*7770161
22 22*6
71 31 36-6
8.03637-1
0*7042152
July 1
5 ° 7-96
22 13 17-9
• 7766050
22 19*6
713652-5
036 3*0-7
•7042423
2
5 1 5*28
22 1443*0
22 16 6*6
•7761802
22 i6*6
714a 8-3
36 24- 3
•7042695
3
5 2 2-46
•7757418
22 13-6
714724-1
036 17-9
•7042967
4
5 259-48
N.22 1728-60-7752897
22 I0'6 71 52 39-9 S.o 36 11*5
0*7043*39
Digitized by
Got
o
254
JUPITER, 1 88a.
MEAN TIME.
Month
and
Day.
Apparent
Bight
Ascension.
Apparent
Declination.
Log. of
True Dirt.
from
the Earth.
Meridian
Faaaage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Red. Vect.
Noon.
Noon.
Noon.
Noon.
Aboii.
Noon.
k m t
t
k
m
# »
1 *
July 4
5 259-48
N.22 17 28*6
22 1840*1
2220 8*0
0*7752897
22
10*6
71 5* 39*9
8.036 H'5
0*7043*39
5
s 356-34
•7748240
22
7-6
715755*6
036 5-1
•70435 1 1
6
5 4 53*03
•7743445
•7738514
22
4 1
7* 3 «"3
03558-7
•7043784
i
5 549'55
5 645-90
22 21 25*3
22
i-6
72 826-9
03552-3
•7044057
22 22 4I'I
•7733447
21
58-6
711341-5
35 45*9
•7044330
9
5 7 4*'07
222355*3
•7728242
21
55-6
71 1858*1
35 39*4
•7044603
10
S 838-04
N.22 25 8*o
0*7722901
21
52-6
7214 13-6
8.03533-0
0-7044877
ii
5 9 33-82
22 26 19*1
•7717424
21
111
72 2929*1
035 26*6
•7045 15 1
12
5 1029*40
22 2728*7
22 20 36-8
•7711810
21
7*34 44-5
O35 20-1
•70454*5
13
5 ii 24-76
* 7706060
21
43-6
7139 59*9
03513-7
•7045699
«4
5 12 I9*QI
51314-83
22^ 294V 4
22 3048*5
•7700174
•7694153
21
40*6
7iH5i5'3
035 7**
•7045973
15
21
37-6
72 5030*6
035 o-8
-7046248
16
514 9-52
N.22 31 52*1
0*7687997
21
34'5
7*55 45-9
8.03454-3
0-7046523
II
5i5 3-98
51558-19
22 32 54*2
•7681708
21
3 r s
73 1 x*x
34 47*9
•7046798
22 33 54-8
•7675284
21
28-5
73 616*3
344i*4
•7047073
19
5 1652*15
223454*0
•7668727
21
25 4
73 "3i'5
03434-9
-7047349
20
5I745-85
5 18 39*29
2235517
•7662037
21
22*4
73 1646*6
03428-5
•7047625
21
22 3648*0
•7655215
21
19-4
73 28 1-7
03422-0
•7047901
22
5 1932*46
N.22 37 42*9
0*7648262
21
16-3
73 27I6-7
8.03415-5
0-7048177
23
5 2025-35
22 38 36*3
•7641 I 78
21
13*2
73 32 3I-7
034 9-0
•7048453
24
5 21 17*96
22 39 28*3
•7633964
* 7626620
21
10*2
73 37 46-6
34 **5
•7048730
a 5
5 22 10*28
2240 18*9
21
7*1
7J43 x*5
03356-0
•7049007
26
523 2-31
2241 8*1
•7619148
21
4*0
734816-4
03349-5
•7049284
27
5 23 54'04
22 4155-9
•761 1547
21
0*9
73 53 3*'*
03343-0
•7049561
28
5 2445-47
52536*58
N.22 42 42 '4
0*7603819
20
57*9
54-8
735846-0
8.03336-5
0-7049839
29
224327*5
-75959 6 4
•7587082
•7579873
•7571638
20
74 4 o*8
033 30-0
•70501 1 7
30
52627*38
527 17-87
5 25 8*02
2244 ii*3
20
H'l
74 9 J 5-5
33*3*5
•7050395
. JI
224453*7
20
48-6
741430-1
033 17-0
•7050673
Aug. 1
2245349
20
45*5
741944-7
03310-5
•7050952
2
52857-84
2246 14-7
•7563278
20
42-4
74*459*3
033 4-0
•7051231
3
52947-32
N.22 46 53* 3
224730-0
0-7554792
20
39*3
743013-8
8.03257-4
0-7051510
4
53036-45
•7546181
20
36-j
74 35*8-3
03250*9
•7051789
5
5312523
2248 6*7
•7537446
•7528587
20
33-0
744042-7
03244*3
-7052068
6
53213-64
224841*6
20
29-9
7445 57-J
03237-8
•7052347
7
5 33 1 '68
2249 15*2
•7519604
20
26-7
74 5i "'5
032 31-3
•7052627
8
5 33 49-35
224947*7
•7510497
20
23 • 6
745625-9
032 24*7
-705*907
9
53436-63
N.22 50 19-0
0-7501267
20
20-4
75 140-2
8.032 l8 '2
0-7053187
10
53523-51
536 9-99
5 3656*06
22 5040*2
22 51 18-2
•7401916
•7482444
20
17-3
75 654*4
032 11*6
•7053467
11
20
14- 1
7512 8*6
032 5*0
•7053748
12
22 51 46*2
•7472852
20
10-9
75 1722*8
03158-4
•7054029
13
5 374I-7J*
53826*95
22 52 iro
225238-7
•7463 141
20
7'7
75 ** 3-5-9
03151-9
•7054310
14
•7453313
20
4*5
752751-0
03'45'3
•7054591
15
53911*74
N.22 53 34
0*7443368
20
J' 3
75 33 5'o
8.03138*8
0*7054872
16
5395609
22 53 27*0
•7433308
l 9
58-2
75 38 19*0
031 32*2
'7055154
\l
54039*99
22 53496
•7423133
-7412846
19 55-0
75 43 3**9
031 25-6
•705543*3
54123*43
542 6*41
22 54 11*2
19 51-7
754846-8
031 19-0
•7055718
*9
N.22 5431*9
0-7402447
19
48-5
75 54 0-68.03112-40-7056000
Digitized by
Googk
JUPITER, 1882.
255
MEAN TIME.
Month
and
Day.
Aseenrion.
Apparent
Declination.
Log. of
True Dist
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio
centric
Latitude.
Log. of
Rad. Vect.
A%o«.
Noon.
Noon.
Noon,
Noon.
Noon.
b m •
O / #
b m
0/4-
O / *
Aug. 1 9
542 6-41
N.22 54 31*9
O • 7402447
19 48*5
75 54 o-6
S.031 12-4
0*7056000
20
54248*92
22 545I'0
•7301937
•7381318
*9 45*3
75 59 *«4*4
031 5-8
•J056282
21
5 43 30*95
22 55 10*4
19 42*0
76 418*2
03059*2
•7056565
22
5 4412-49
22 55 28*2
•7370591
19 38*8
76 941-9
03052*6
* 7056848
*3
5 44 53-54
22 5545*2
•7359758
•7348820
19 35*5
761455-6
03046-0
•7057131
H
5 45 34- IO
2256 1-3
19 322
7610 9*1
03039-4
•7057414
z l
5 46 14- 15
N.22 56 l6*6
0*7337778
19 29*0
76 25 22 * 8
8.03032*8
0-7057698
26
5465368
22 5631*0
•7326635
19 25*7
763036-4
03026*2
•7057982
n
54732-70
548 II -19
22 5644-7
•7315390
19 22'4
7°" 35 49*9
030 19*6
•7058266
22 5657*5
•7304045
19 19*1
7641 3-4
030 13*0
•7058550
*9
54849-14
5492655
2257 9*6
•7292601
'7281060
19 15*8
7646 i6'8
030 6*4
•7058834
30
22 57 21-0
19 125
7651 30*2
02959*8
•70591x8
L JI
5 50 3 41
N.22 57 31*6
0*7269423
19 9*2
765643-5
a 02953*2
0*7059403
Sept. 1
55039-72
22 57 4I*6
•7257690
19 5*8
77 156*8
02946*6
'7059688
2
5 511546
5515063
225750-9
"7245864
19 2-5
77 7 10' 1
02939*9
•7059973
3
22 57 59*6
2258 7*6
•7233946
18 59*i
77 12 23*3
02933-3
•7060258
4
5 52 25*22
•7221937
18 55*7
771736-5
02926*7
•7060543
5
5 52 5921
22 58 15*1
• 7209840
18 52-3
772249-6
02920*0
* 7060829
6
553 32*61
N.22 58 22*0
0*7107655
•7185385
18 49-0
7728 2*7
S.029 13-4
0*7061 115-
7
5 54 5'4<>
22 58 28*4
18 45-6
773315-8
029 6-7
'7061401
8
5 54 37*57
22 58 34-3
•7173032
18 42*2
7738288
029 O'X
•7061687
9
555 9-"
22 58 39*7
•7160597
•7148084
18 38-8
77 43 4-J *8
02853*4
•7061973
10
5 5540*02
5 56 10*28
225844*6
18 35*3
774854*7
02846-8
•7062259
11
22 5849*1
'7135494
18 31*9
77 54 7*6
02840*1
•7062546
12
55639-88
5 57 8-82
N.22 58 53*2
22 58 50*9
0*7122830
18 28-4
77 59*<>'4
8.02833-4
0*7062833
13
•71 10094
18 25*0
78 433'*
02826-8
•7063x20
H
5 58^61
2259 0-2
* 7007290
* 7084420
18 215
78 946*0
02820*1
•7063407
i|
2259 3*2
18 18-0
781458*7
028 13*4
•7063694
16
5 58 3 1# 59
55857-80
2259 5*9
2259 8*2
•7071486
18 14-5
7820 ii*4
028 6*7
•7063982
*7
•7058491
18 11*0
78 25 24*0
028 0*0
•7064270
18
55923-31
55948-12
6 012*22
N.22 59 IO*3
0'7<>45439
18 7*5
783036*6
8.02753*3
0*7064558
19
22 59 12 'I
•7032333
18 4*0
78 35 49' 1
02746*6
•7064846
20
22 59 13*7
•7019174
18 0*4
7841 i*6
o*7 39*9
•7065134
21
6 033-59
6 058-24
22 59 I5-O
22 59 l6' I
•7005967
17 56*9
784614*1
02733*2
•7065423
. 22
'6992713
•6979416
*7 53*3
17 49*8
7851 26-5
02726-5
•70657x2
23
6 I20'IO
22 59 17*1
785638-9
027x9*8
•7066001
»4
6 i4i # 34
6 2 178
N.22 59 17*9
22 59 l8*6
0*6966078
17 46-2
79 i5*"-»
8. 027 13*1
0*7066290
li
•6952704
17 426
79 7 3*5
027 6*4
•7066579
6 221*46
22 59 19*2
•6939296
17 38-9
79 12 15*8
026 59*7
•7066868
55
6 240*38
22 59 19*7
•6925857
17 35*3
79 17 28-0
02653*0
•7067x58
6 258*54
22 59 20; I
•6912389
•6898895
17 31-7
7922 40*2
02646*3
•7067448
29
6 3 15*92
22 59 20'5
17 28*0
792752-3
02639*6
•7067738
30
6 3 3*'5*
N.22 5920*8
0*6885379
17 24-4
79 33 4*4
8.02632*9
0-7068028
Oct. 1
6 3 4834
6 4 3*36
22 59 21*1
•6871843
17 20 , 7
793816-4
02626*2
•70683x8
2
22 59 21*4
•6858292
17 17*0
79 43 *8*4
026 19*4
* 7068609
3
6 4i7'58
22 59 21*7
•6844729
0*6831158
17 13*1
17 9-6
794840-4
026 12*7
'7068899
4
6 431*00
N.22 59 22'0
795352-3
8.026 6*o
0*7069190
Digitized
byGoCK
lie
2$6
JUPITER, 1882.
MEAN TIME.
Month
and
Day.
Apparent
Right
Ascension.
Apparent
Declination.
Log. of
True Dist.
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Rad. Vect
Noon.
Noon,
Noon.
Noon.
Noon.
Noon.
h
m s
r *
h m
9 *
010
Oct. 4
6
4 31*00
N.22 59 22'0
0*6831158
17 96
79535*'3
S.026 6*o
0*7069190
5
6
443-60
22 5922*4
•6817584
17 5-8
79 59 4'2
02559*3
-7069481
6
6
455*37
22 59 22*9
• 6804.OIO
17 n
80 416*0
02552-6
•7069772
7
6
5 6-31
225923*5
•6790441
16 58-3
80 927*8
025458
•7070063
8
6
5 16-42
52568
22 59 24'2
•6776882
16 54-6
801439-5
02539-1
•7070354
9
6
22 59 25'0
•6763337
16 50-8
80 1951*1
02532-4
•7070646
10
6
5 34- 10
N.22 5925-9
0*6749809
16 47-0
8025 2*9
S. 025 25*6
0-7070938
11
6
541-67
22 5926-9
•6736305
•6722829
16 43-1
8030 14*5
025 18*9
•707x230
12
6
548'39
22 5928*1
16 39-3
80 35 26' X
025 I2-X
•7071522
13
6
5 54' H
225929*5
•6709385
16 35-4
804037*7
025 5-4
•7071814
"4
6
5 59' 2 3
6 3-36
22 59 31'0
•6695978
16316
804549*2
02458-6
•7072106
15
6
22 59 32/6
•6682615
16 27-7
8051 0-7
024519
•7072399
16
6
6 6-62
N.22 59 34*5
0*6669299
16 238
8056 12*1
S. 24 45 • 1
0-7072692
:i
6
6 9 '02
225936*5
•6656037
16 199
8l 123*5
02438-3
•7072985
6
6 10-54
22 59 38*6
•6642833
16 10*0
8l 634*8
024 31*6
•7073278
*9
6
6 11-19
22 59 41*0
•6629694
16 it'i
81 xi 46-1
024 24*8
'7073571
20
6
6 10*97
22 59435
22 5946-2
•6616623
16 8-2
8l 16574
024 18*0
• 7073864 1
21
6
6 9-88
•6603625
l6 4 '2
8122 8*6
24 X I * 2
•7074158
22
6
6 7-92
N.22 5949*1
0*6590707
l6 0*2
81 27 19-8
S.024 4*4
0-7074452
23
6
6 5-00
6 1-38
556-81
22 5952*2
•6577872
15 562
81 32 31*0
02357*7
•7074746
24
6
225955-4
•6565127
15 52-2
813742*1
023 50*9
•7075040
2 I
6
225958-9
•6552476
•5 482
8142532
02344-1
•7075334
26
6
551-36
23 2*5
•6539923
15 44-2
8x48 4-1
02337-3
•7075628
27
6
5 45^4
23 6*4
•6527476
'5 4° - 1
8153 i 5 -x
023 30-5
•7075923
28
6
537-86
N.23 010-4
23 014-6
0-6515139
15 361
81 5826-0
S.023 23-7
0-70762x8
29
6
5 2981
•6502917
IS 32-0
82 3 36*9
023 16-9
•7076513
30
6
5 20-89
23 0189
•6490816
15 279
15 238
82 847*7
023 XO'X
•7076808
3i
6
5 ii'ii
23 023-4
•6478842
821358*5
023.3-3
•7077x03
Nov. 1
6
5 0-47
23 028*0
•6467000
15 19-7
8219 93
22 56-5
•7077398
2
6
448-98
23 032*8
•6455298
15 15-6
82 24 20'0
022 49*7
•7077693
3
6
436-63
N.23 °37"7
23 042*8
0-6443740
15 114
82 29 30*7
S. O 22 42 ' 9
0-7077988
4
6
4 23"44
•6432334
•6421084
IS 7-2
8234413
22 36*1
•7078284
5
6
4 9'4o
23 047*9
15 3-1
823951*9
022 29-3
•7078580
6
6
3 54*52
23 Q53 1
* 6409998
14 58-9
8245 2-5
22 22*5
•7078876
7
6
338-82
23 0584
•6399083
14 S4'7
82 50 13-0
022 15*7
•7079x72
8
6
3 22-30
23 1 3*8
•6388343
14 50-5
825523-4
022 8*9
•707946*
9
6
3 4-96
N.23 l 9*2
0*6377786
14 46*2
83 033-8
S.022 2'X
0*7079764
10
6
2 46*82
23 1 '4*7
•6367417
14 42*0
83 544-2
021 553
•7080061
11
6
\T\\
23 I 20*2
•6357243
14 37-8
83 1054*6
02X 48*5
•7080358
12
6
23 125*7
'6347270
'4 33*5
83 16 4-9
2I 41'7
• 7080655
13
6
147-69
23 I3I*2
•6337505
14 29-2
8321 15*2
02X34-9
•7080952
'4
6
12645
23 I 36-6
•6327953
14 24-9
832625*4
2X 28- X
•7081249
15
6
« 4*47
N.23 142*0
0*6318619
14 20'6
83 31 356
S.02X 2X*3
0*7081546
16
6
041-76
23 147*3
•6309510
.4 16-3
833645-8
02X 14*4
•7081843
17
6
1834
23 1525
•6300632
14 12*0
834155*9
02X 7*6
-7082140
18
5 59 54*23
23 1 576
•6291991
14 7*6
8347 6-o
021 0*8
•7082438
19
5 5929-43^23 2 2 # 6o'628359i 14 3-3
83 52 16-0
8. 20 53 - 9 * 7082736
Digitized by
Google
JUPITER, 1882.
-*5'
MEAN TIME.
Month
and
Day.
Apparent
Right
Ascension.
Apparent
Declination.
Log. of
True Dist.
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitade.
Helio-
centric
Latitude.
•
Log. of
Rad. Vect
Noon.
Noon,
Noon.
Noon.
Noon.
Noon.
h m •
/ *
h m
1 *
t *
Nov.19
5 59*9*43
N.23
2 2*6
0*6283591
H 3*3
13 58*9
8352 16*0
8.02053*9
0*7082736
ao
558 37-86
*3
2 7-4
•6275437
83 5726*0
02047*1
•7083034
21
*3
2 I2'I
•6267534
•6259887
13 54'5
84 235-9
2040*2
•708333a
22
5 58 11*12
23
2 i6'5
13 502
84 745-8
02033*4
-708363c
23
5 5743*77
5 57i5*8»
23
2 20*8
'6252500
13 45-8
841255*6
020 26*6
-708392s
24
23
2 24*8
•6245378
13 41-4
84x8 5*4
02019*7
•7084221
*5
5 56 47 JO
5 56 l8*22
N.23
2 28'6
0*6238525
13 370
8423 15*2
S. 020 12*9
0*7084525
26
23
2 32*2
•6231947
•6225648
13 32-6
84 2825-0
020 6*o
'7084824
27
5 554859
23
* 35*5
2384
13 28-1
84 33 34*7
1959*2
•7085123
28
5 55I8-44
23
•6219632
13 23-7
84 38 44-3
01952-3
•708542a
29
5 5447*80
23
241-1
•6213905
* 6208469
13 19-3
8443 53-9
01945*5
•7085721
30
5541667
23
243-5
13 14*8
84 49 3'5
19 38*6
• 708602c
Dec 1
5 53 45 09
N.23
*45-5
0*6203330
-6198491
13 103
845413*0
8.019 31*7
0*7086315
2
5531307
23
2472
248*6
*3 5'9
845922*5
1924*9
•708661!
1
3
5 5240-64
23
•6193957
13 1-4
85 431*9
019 18*0
•708691s
4
5 5* 7*8i
23
249*5
•6189731
12 56-9
85 941-3
019 ii-x
•70872 1 J
5
5513462
2 3
2 50*1
•6185817
12 524
851450*7
019 4*3
• 70875 xi
V***w*
1
551 109
23
2 50*3
•6182219
12 47*9
85 20 0*0
01857*4
• 70878 x t
55027*24
N.23
250*1
0*6178939
•6175981
12 43*4
8525 9*3
8.01850*5
0*70881x1
5 49 5V 10
549 18*70
54844*06
23
249-5
248*5
12 39*0
853018*5
01843-7
•708841?
9
23
•6173346
12 34*5
853527*7
01836*8
•70887 1 J
10
23
247-1
•6171037
12 29*9
854036*8
18 30*-»
' 708901 c
XI
548 9*22
23
245*2
•6109057
12 254
85 45 45-9
1823*1
•708932c
12
54734*20
23
242*9
•6167408
12 20*9
855055*0
018 16*2
•7089621
13
54659-04
N.23
240*2
0*6166090
12 16-4
8556 4-o
8.018 9*4
0*7089923
, X +
54625*75
54548*36
23
2 37*0
•6165105
12 ii*9
86 1 13*0
018 2-5
•709022;
**.*•<
^*^I5
)4*fri6
23
233*4
•6164452
12 7-4
86 622*0
0x755-6
• 70905 2i
fid- 4^
54512*91
23
229-4
•6164133
•6164148
12 2*8
86 11 30*9
01748*7
* 709082*
s
5 44 37*4*
23
225-0
11 58*3
861639*8
01741*9
•7O9I I2<
5 44 '*9*
23
220*2
•6164497
11 53*8
8621 48*6
0x735*0
•709142}
19
5 43 * 6 '44
N.23
2 15*0
0*6165180
11 49*3
862657**
8.01728*1
0*709 1 72 1
20
54251-01
23
2 94
•6166195
11 44*8
8632 6t
17 21*2
*709203<
mo y<
o*o*i\
54215*65
54140*38
*3
2 3*4
•6167543
11 40-2
863714*7
01714*3
•7092333
22
23
157-1
•6169221
11 35*7
864223*3
017 7'4
•7092634
2 3
541 5-24
54030*26
23
150*4
•6171230
11 31*2
864731*9
17 0-5
•7°9*93<
W H
23
143*4
•6173566
11 26*7
865240*4
1653*6
•7093*31
0*0-25
26
5 39 55*45
5 3920*84
5 3846-46
N.23
*3
1 36*0
128*4
0*6176220
•0179218
'6182530
•6186164
11 22*2
11 17-7
865748*9
87 « 57'4
fiUo 1646*7
1639-8
o*709354<
•709384:
n
23
I 20*5
II IJ-2
11 8-7
87 8 5*8
x6 32*9
•7094x4*
53812*33
*3
I I2'4
871314*2
1626-0
•709444:
29
5373848
*3
1 4*o
-6190118
11 4*2
87 1822*5
x6 19*1
•709475c
30
5 37 4*93
*3
055-4
•6194389
10 59-7
872330-8
l6 12*2
•7095051
3 1
53631*70
N.23
046*7
0*6198975
10 55-2
872839-0
8.016 5V3
o'709535<
32
53558*83
N.23
037-7
0-6203873
10 50*8
87 33 47'*
8.01558-4
0*709565!
17
(nautical almanac, 1882.)
Digitized by
Google
258
SATURN, 1 88a.
MEAN TIME.
•
Month
and
Day.
Apparent
Bight
Ascension.
Apparent
Declination.
Log. of
True Diet
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
1
ceSric !jjft£ft
Latitude, r™- Vect *
Noon.
Noon.
Noon.
Noon.
Noon.
Noon*
h m ■
1 *
h m
t *
/ *
Jan. I
2 1628*21
N.i 1 246*4
0*9421691
7 3*-i
4i 9 35*9
S. 2 21 40*7 0*9640089
2
2 1625*71
11 252*1
'9429206
7 *7"i
41 1145-6
221 38*9
' 9 6 39977
3
2 1623*63
2 1621*98
11 3 0*1
•9436766
7 23*2
4* 13 55*4
221 37-1
* 9639866
4
11 3104
•9444368
7 19*2
41 16 5*1
22135-3
•9639755
5
2 1620*76
11 322*9
•94520 II
7 i5'3
41 18 14-9
22133*5
•9639644
6
2 16 19*96
11 3376
•9459691
7 "*3
41 2024*6
2 21 31*7
•9639533
i
2 16 19*60
N.u 354*6
0*9467405
7 7*4
41 22 34-4
S. 2 2129*90*9639422
2 l6 I9-66
11 413-9
•9475151
•9482927
7 3*4
412444*1
22128-1I "9639311
9
2 16 20*15
" 4 35-4
659-5
412653-9
2 21 26-3 '9639200
10
2 l6 21*07
11 459-1
•9490730
6 55 -6
4129 3-6
2 21 24*5 '9639089
ii
2 l6 22*43
11 5251
•9498556
i 5l 'l
647-8
413113-4
2 21 22*7j -9638978
12
2 1624*22
11 553-2
'9506404
413323-2
2 21 20*9 -9638868
*3
2 1626*44
N.u 625-6
11 658-2
0-9514271
6 439
4x3533*0
S. 2 21 19*1
0*9638757
H
2 1629*09
•9522155
6 40*0
41 37 4*'8
2 21 I7'2
•9638647
if
2 1632*17
u 731-0
11 8 8*0
•9530054
6 361
413951-6
2 21 15*4
•9638536
16
2 16 35*68
•95379f3
•9545882
6 32-3
4142 2*4
2 21 13*6: -9638426
»7
2 l6 39*62
11 847*3
11 928*7
6 28 4
41 44""*
2 21 II*7| -9638315
18
21643*99
•9553806
6 24-5
41 4622*0
2 21 9*9j '9638205
»9
2 1648*79
N.U 10 12*2
09561734
•9569664
6 20-7
6 168
414831*8
S. 2 21 8*10*9638094
20
2 1654*02
111057*9
111145*8
415041*7
2 21 6*2
•9637983
21
2 1659*68
•9577591
6 130
415*51*5
221 4*4
•9637872
22
2 17 5*76
11 12 358
•95«55 I 5
6 9-2
4155 i-4
2 21 2*5
•9637762
*3
2 17 12*26
111327*9
•959343*
f 5'3
415711*2
221 0*7
•9637651
»4
2 17 I9*l8
11 14 22*1
'9601340
6 1-5
415921-1
220 58-8
•9637541
a I
2 1726*52
N.u 1518*3
1116166
0*9609237
5 57*6
42 130*9
8.2 20 57*0
0*9637431
26
2 1734*28
•9617119
5 53*8
42 340*8
2 20 55' I
•9637321
3
2l74a-44
11 17 16*9
11 1819-3
-9624084
-9632830
5 50-0
42 550*6
2 20 53'2
•96372x1
2 1751*02
5 46-2
42 8 0*5
2 2051*3
•9637101
29
2 l8 0*00
11 1923*6
•9640656
5 42-4
5 38-6
42 10 10*3
2 2049*4
•9636991
30
2 18 9*39
11 2029*9
•9648458
42 12 20*2
22047/5
•9636881
„ 3i
2 l8 I9*l8
N.u 21 38*1
0*9656236
5 34*9
42 I4 30'I
S.2 2045*6
0-9636771
Feb. 1
2 l8 29*37
11 2248*2
•9663987
5 312
42 1640*0
22043*7
•9636661
t
21839*95
11 24 0*2
•9671709
5 *7*S
421849-9
2 2041-8
•9636552
3
2 l8 50*93
112514-1
11 2629*8
•9679400
5 23-8
42 20 59*8
2 20 39*9
.9636442
4
2 19 2*30
•9687059
5 20-0
42 23 9-7
2 20 38'0
•963633*
5
2 19 14*06
112747*4
'9694684
5 16-3
422519-7
2 2036*1
-9636223
6
2 19 26*20
N.u 29 6-7
11 3027*8
0*9702272
! ,'U
422729*6
8.2 20 34*2
0*9636113
I
2 19 38*72
•9709823
42*9 39-5
22032*3
•9636003
2 19 51-02
113150*7
'9717334
'9724804
5 51
4*3149-4
2 2030*4
•9635894
9
2 20 4-9O
113315-3
5 i'4
4*33 59'4
2 20 28*5
•9635784
10
2 20 18*55
113441-7
•9732230
4 57'7
4236 9-3
2 20 26*6
•9635674
11
2 20 32*57
11 36 9-7
•9739612
4 54*o
423819-3
22024-7
•9635565
12
2 20 46 ' 96
N.u 37 39'4
11 39 10*8
0*9746947
4 46*6
424029*2
8.2 20 22 '7
0-9635456
13
2 21 1*71
-9754234
424139-2
2 20 20*8
•9635346
*4
2 21 16*83
114043-8
11 42 i8*4
•9761470
•9768654
4 4*"9
42 44 49'*
2 20 l8'9
•9635237
\i
2 21 32*30
4 39'3
4 35-5
424659-1
2 20 l6'9
'9635x28
2 21 48*12
N.u 43 54*6
0-9775785
4249 9«i
8.2 20 15*0
0-9635018
Digitize
d by GOO
de
SATURN, 1882.
259
MEAN TIME.
•
Month
and
Daj.
Apportnt
Right.
Ascension.
Apparent
Declination.
Log. of
TroeDist.
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Bad. Vect,
iVocm.
Noon,
Noon*
Noon.
Noon.
Noon.
h m 8
1 it
h m
; *
/ *
Feb. 16
2 21 48*12
N.ii 43 54*6
0*9775785
•9782860
4 35*6
4*49 9*1
S.2 20 15*0
0-9635018
11
2 22 4*30
2 22 20*52
114532*3
4 31*9
42 51 190
2 SO 13*1
•9634909
114711*5
•9789878
4 *8*3
4 *4'6
425329-0
2 20 11 'I
-9634800
19
2 22 37*69
114852*2
•9796837
425539-0
2 20 9*2
•9634691
20
2 22 54*89
115034*3
11 52 17*8
•9803735
4 21*0
425749-0
220 7*3
•9634582
21
2 23 12*43
•9810571
4 173
425959-0
220 5-3
•9634473
22
2 23 303O
N.n 54 2*8
0*9817343
4 137
43 * 9*o
S. 2 20 3*3
0*9634365
*3
2 2348*50
115549*2
'9824050
4 10- 1
43 419*0
220 i'4
•9634256
24
2 24 7*02
" 57 36-9
•9830691
4 6-5
43 629*0
21959-4
•9634x47
*2
2 2425*85
115925*9
12 1 16*2
•9837264
4 2-8
43 839*0
219574
•9634039
26
2 24 45*00
•9843768
3 59'*
431049-0
* 19 55*5
■9633930
27
2 25 4*46
12 3 7*8
'9850202
3 55'6
431259-0
* 19535
-9633821
28
2 25 24*22
N.12 5 o*6
0*9856564
3 52-0
43 *5 9*o
8.21951-5
0*9633713
Mar. 1
2 2544*28
12 654*6
'9862854
3 4»'4
431719'°
21949-5
•9633604
2
2 26 4*63
12 849*7
•9860,071
3 44*8
431929-0
21947-5
•9633495
3
2 2625*27
12 1046*0
•9875214
3 4i'2
432139-1
* 19 45*5
•9633*387
4
2 2646*20
12 1243*4
•9881281
3 37'6
432349-1
* i943"5
•9633279
5
2 27 7*42
12 1441*8
•9887273
3 34'i
43*5 59**
21941-5
•9633171
6
2 2728*91
N.12 1641*3
0*9893186
3 3°'5
4328 92
8.21939-5
0-9633063
7
2 27 50*68
12 18 41-9
'9899022
3 26*9
433019-3
* 19 37*5
-9632954
8
2 28 12*72
12 2043-5
12 2246*1
•9904778
3 23*4
3 19-8
433229-3
* 19 35*5
'9632846
9
2 28 35*03
•9910455
43 34 39*4
21933-5
•9632738
10
228 57*60
12 2449*6
'991605 I
3 16*2
433649-4
219315
'9632630
11
2 29 20*43
12 26 54*o
•9921565
3 "'7
43 38 59*5
21929-4
-9632522
12
2 2943*52
N.1228 59*4
0*9926995
3 r*
4341 9-6
8.21927-4
0-9632414
»3
230 6*86
12 31 5*6
•9932342
•9937604
3 5'6
43 43*9*7
21925-4
•9632306
14
23030*45
12 33 12*7
3 2*1
434529-8
21923-3
•9632199
15
2 3054*28
12 35 20*6
•9942780
•9947870
2 5 8*5
43 47 39*9
219*1-3
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16
231 18*35
2 31 42*66
123720*3
123938*7
2 55*0
434950-0
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17
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43 5* o*i
2 19 17*2
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18
2 32 7-20
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19
2 32 31*96
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20
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21
2 33 22*l6
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219 9-0
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22
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44 250-8
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23
2 34 13*21
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N.1255 59
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0*9985351
'9989621
2 269
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8.2 19 2*8
0*9631x23
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235 507
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44 921*3
2 19 0*8
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26
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125933*6
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0-9997878
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441131-5
21858-7
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27
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13 149*2
2 16*4
44*341*7
21856*6
•9630802
28
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13 4 5*2
1*0001864
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44i5 5i*9
2 1854-6
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29
2 3651*06
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4418 2-1
21852-5
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30
2 37 18*01
N.13 838-4
1*0009548
2 5*9
44 20 12 '3
8.2 1850*4
0*9630481
3 1
2.3745-12
13 1055*6
•OOI3245
•0016846
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4422 22 '5
21848-3
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Apr. 1
2 38 12*41
13 13 13*2
1 58*9
442432-7
2 1846-2
•9630267
2
23839*86
131531*1
•0020350
1 55'4
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2I844-I
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3
239 7*46
N.13 1749*2
1*0023756
1 52*0
442853-2
8.2 1842*0
0-9630054
Digitized
8
2
4
260
SATURN,
1882.
•
MEAN TIME.
Month
and
Day.
Apparent
Right
Ascension.
Apparent
Declination.
Log. of
True Dist
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Bad. Vect
Noon.
Noon,
Noon,
Noon.
Noon.
Noon.
h m •
t *
h m
O t *
• *
Apr. 3
239 7-46
N.13 1749*2
i'oo23756
I 52*0
442853**
8.2 1842*0
0*9630054
4
2 39 35*22
13 20 7*6
•0027065
I 48*5
443' 3*5
2 18 399
•9629948
5
2 40 3 * 13
2403IM5
13 22 20*3
•0030275
•0033387
-0036401
I 45*1
44 33 13*7
21837-8
•9629841
6
13 2445-2
I 41*6
44 35*4*©
21835*7
•9629735
1
2405938
1327 4*3
I 381
44 37 34*2
21833-6
•9629628
24I 27*72
132923*7
•0039316
1 34*7
44 39 44*5
21831-5
'9629522
9
24I 56*19
N.I3 3I43-2
1*0042132
1 31*2
444" 54*8
8.2 1829*4
0-9629415
10
2 42 24*79
1334 2*8
13 3622*6
•0044847
•0047462
1 27*7
4444 5*i
2 l8 27*2
• 9629308 j
11
24253*52
1 24*3
444615*4
2 l8 25*I
• 9629202 1
*~h
12
243 22*38
133842*4
•0049977
1 20*8
44 48*5*7
2 l8 22*9
* 9629096^
13
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1341 **3
•0052390
1 17*4
445036-0
2 l8 20'8
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*+
24420-44
1343 22-2
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1 14-0
445246-3
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15
24449*63
24518*93
N.I3 45 42-2
1*0056911
1 10*5
445456*6
8.2 18 16-5
0-9628778,
16
I348 2*2
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1 7*1
44 57 6*9
2I8I4-4
-9628672:
.3
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13 50 22*1
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2I8I2-3
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246 17*83
I352 4I*9
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1 o*i
45 127-6
2 18 10*1
-9628460
'9
24647-42
1355 i-7
•0064723
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45 3 37*9
2 18 8-0
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20
247 17*10
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21
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22
14 2 0*4
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46-4
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218 1-5
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23
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14 1TZ
43-0
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21759-3
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24
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14 638*8
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45 14 29- 9
21757-1
'9627826!
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H 8 57-7
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36*1
45i64<>'3
21754-9
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26
2 50 16*71
14 11 16*3
•0074413
32-7
451850-7
21752-8
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2 5046*86
N.14 13 34-6
1-0075383
29*2
45*1 i'i
8.2 1750-6
0*9627510
^
28
2 51 17*05
141552*7
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21748-4
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29
25147*30
14 18 10-5
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452521-9
2 1746*2
•9627299
« 3 °
25217-59
142027*9
•0077674
18*9
45*7 3* '3
21744-0
.•9627194
May 1
25247*91
142245*0
-0078232
•0078687
15*5
452942-7
2 17 41 • 8
'9627089
2
2 53 l8*27
1425 i*8
12*1
45 3153**
2 17 39*6
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3
2 5348-66
N.1427 18-2
1*0079039
8*7
45 34 3'6
8.21737*4
0*9626879
4
2 54 19*08
142934-1
-0079289
5*2
453614-1
21735-2
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kr
<•— 6
2 54 49*53
143149*7
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{•I ««•!}
45 38 *4*5
2 17 33*0
• 9626670 1
25519-99
1434 48
122224Z9
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454035-0
2 1730-8
•9626565
I
25550-47
143619-5
•0079419
23 51*5
45 4*45*5
2 1728-6
* 9626460
2 5620*96
143833-8
•0079257
23 48-1
454456-0
2 1726-4
•9626355
9
2 5651*46
N.i4 40 47*5
1443 o*8
1*0078991
*3 44*7
45 47 S'S
8.2 17 24*2
0*9626250
10
2 5721-96
•0078622
23 41*3
23 37/8
454917-0
2 1721*9
•9626146
\
11
25752*46
2 58 22-96
H45i3 # 5
•0078150
45 51*7*5
21719-7
'9626041
12
144725*7
•0077575
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45 53 38*i
21717-5
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*3
25853*45
H49 37'4
•0076897
23 31*0
4555486
2 17 15-2
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H
2 5923*92
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•00761 16
23 27*5
45 57 59"*
2 17 13-0
•9625729
l l
25954*38
N.I4 53 58-Q
1456 8*8
1*0075231
23 24-1
46 9-7
8.2 17 io-8
0*9625625
16
3 024*81
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23 20*7
46 2 20*2
217 8-5
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:z
3 055*21
1458 18-0
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23 17*2
46 430*8
2 17 6-3
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3 1*5*58
15 026*6
•0071959
23 13*8
46 641-3
217 4-0
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m
J 9
3 '55-9 1
N.15 234*5
1*0070663
23 10-4
46 851*98.217 Z'8'0'9625209 1
Digitized by VjOC
O
SATURN, 1882.
261
MEAN TIME.
Month
and
Day.
Apparent
Right
Ascension.
Apparent
Declination.
Log. of
True Dial
from
the Earth.
Meridian
Paaeage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Rad. Vect
Noon.
Noon.
Noon,
Noon.
Noon,
Noon,
h m •
/ *
h m
t *
/ * |
May 19
3 155-9I
N.15 234-5
I * 0070663
23 IO'4
46 851-9
8*217 1*80*9625209
20
3 2 26*20
15 441-7
•0069265
23 7-0
46 1 1 i*4
* I ^59'5 -9625105
21
3 * 5^44
15 648*2
•0067764
*3 3*5
46 13 13-0
* *6 57'i^ '9625001
» «655-€[ -9614897
22
3 326*65
3 3 56'75
15 854*0
' 0066 I 62
23 o-i
46 15 23*6
23
15 1059*1
* 0064459
22 56*7
461734-2
2 1652*8, -9624794
24
3 426*84
15 13 3-4
•0062655
22 53*2
461944-8
2 1650-5' * 9624690
2 l
3 4 56-85
N.15 15 7*0
1*0060751
22 49*8
22 46*4
462155-4
8.2 1648*20*9624586
26
3 526*80
15 17 9*8
•OO58747
4624 6-o
21645*9 -9624483
27
3 556-67
151911-9
•0056644
22 42'9
4626 16*7
2 1643*6' -9624379
28
3 626*47
15 21 13*1
•0054441
22 39-5
462827-3
2 1641*31 -9624275
29
3 656*19
152313*5
•0052140
22 36*1
46 3038-0
2 1639*0' -9624172
. 30
3 7 25-83
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2 1636*7 * 9624068.
3 1
3 7-55-37
3 824-82
N.1527 u*6
1*0047242
22 29*2
46 34 59-3
8.2 16 34-40* 9623965!
June 1
1529 9*4
•0044646
22 25*7
46 37 IO'O
2 1632*1
'9623861
2
3 854*17
.1531 6*3
•0041953
22 22*3
463920-7
2 1629*8
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3
3 9*3*43
3 95^-58
1533 2*3
•0039163
22 18-8
464131-4
2 l6 27*5
•9623655
4
I5 34 57H
•0036276
22 15*4
46 43 42- 1
2 l625'2
•9623552
5
3 1021*62
15 3651*6
•OO33293
22 11*9
464552-8
2 1622*9
•9623449
6
31050*55
N.15 38 44'8
I*00302IJ
•0027038
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22 8*5
4648 3*5
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0*9623346
7
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3 1148*07
154037*1
1542 28*5
22 * 5*0
4650 14*2
2 16 l8'3
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8
22 1*6
465224*9
a 16 16*0
•9623140
9
3 12 16*64
154410*0
1546 8*4
* OO20400
21 58*1
465435-6
2 l6 13*6
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10
31245-09
* OO16939
21 54*6
465646-3
2 16 11*3
•9622935
11
31313*41
154756*9
•0013383
21 51*2
465857-0
2 l6 8*9
'9622832
12
31341-58
N.154944-4
I "0009733
21 47*7
47 1 7'8
8.2 16 6'6
0-9622730
13
314 9*61
155130*9
•OOO5989
21 44*2
47 318-5
2 l6 4*2
•9622627
14
3 H 37'49
155316*3
1*0002152
21 40*8
47 5»9'3
2 16 1*9
•9622525
15
3 l S 5'*3
1555 o*6
155643*9
15 58 26*1
0*9998221
21 37*5
21 33*8
47 7 40*0
* 15595
'9622422
16
3 15 32*80
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47 9 50*8
21557-2
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17
3 l6 0*21
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21 30*3
4712 i*6
2 15 548
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18
3 1627*46
N.16 7*2
0*9985881
21 26*9
471412-4
8.21552*5
0*96221x5
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31654-53
16 147*2
-9981586
21 23*4
471623*2
21550-1
* 9622012 j
20
31721-43
16 320*1
•9977202
21 19-9
471834-0
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21
31748*15
16 5 3*9
•9972729
21 16*4
47 20 44.- 8
* i5 45'4
•9621808
22
3 18 14*68
16 640*5
-9968168
21 12*9
472255-6
21543*1
'9621706
23
3 1841*02
16 8 16*0
•9963521
21 9*4
47*5 fi'4
21540*7
•9621604
24
319 7*17
N.16 950*4
0-9958787
-9953968
21 5*9
472717-2
8.2 15 38*30*9621502
25
3193V12
31958*87
16 11 23*6
21 2*4
47 2928*0
2 15 35*9; '9621400
26
16 12 55*6
16 1426-5
•9949064
20 58*9
473I38-8
* I5 33-5I *9 6ax2 9 8 !
27
3 2024*42
•9944076
20 55*3
47 33 49-6
2 15 31'xi '9*621196
28
32049-75
16 15 56-1
•9939005
20 51*8
4736 0-4
2 15 28*7| '9621094'
29
3 21 14*87
161724-6
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20 48*3
47 38ii*3
2 15 26*3' '9620993
1
30
32139*78
N.i6i8 5i*8
0-9928616
20 44*8
474022*1
8.2 15 23*90*9620891
July i
322 4*47
1620 17-8
•9923299
20 41-3
474233*0
2 15 2I-5; '9620790
2
3 22 28*93
1621 42-7
-9917902
20 37*7
47 44 43*8
2 15 I9-l| -9620688
3
32253-17
1623 6*3
•9912425
20 34*2
47 46 54-7
a 15 16-7 '9620587
4
323 17*17
N.16 24 28-60:9906870
20 30*7
47 49 5'5S«a »5 *4-3'o-9^o485J
Digitized by
o
262
SATURN,
, 188,
I.
MEAN TIME.
Month
and
Day.
Apparent
Right
Ascension.
Apparent
Declination.
Log. of
True Dist.
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log.of
Bad. Vect.
Noon.
Noon.
Noon,
Noon. | Noon.
Noon.
h m •
t * 1
h m
t *
t *
July 4
32317-17
N.16 24 28 '60-9906870
20 30-7
47 49 5*5
S.2 15 14*3
0*9620485
5
32340-93
16 25 49- 7
•9901237
•9895526
20 27-1
475116-4
2 15 11 -9
9620383
6
324 4-46
1627 9-6
162828*2
20 23-6
47 53*7*3
215 95
'9620282
7
42427-74
•9889739
20 20*1
47 55 38a
215 7-1
-9620x81
8
32450-77
162945-6
•9883876
20 16-5
47 57 49*i
2x5 47
•9620080
9
3 *5 i3"S4
1631 i-6
•9877938
20 13*0
48 0*0
215 2*2
•9619979
10
3 25 36-06
N.16 32 16-4
0*9871026
•9865540
20 9-4
48 a io*9
S.2 14 59*8
0-9619878
ii
32558-31
163329-9
20 5'8
48 421-8
* H57'3
•9619778
12
3 2620*29
16 3442*1
•9859682
20 2*2
48 632*8
2X4 54*9
•9619677
'3
3 2642*00
163553*0
•9853451
I 9 5 8'6
48 8 43*7
21452-4
•96x9577
H
327 3-42
1637 2-5
•9847150
19 55-1
48 1054*6
2 1450*0
•9619476
IS
32724-56
16 38 10-7
•9840780
19 51-5
4813 5*5
21447*5
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16
32745-42
N.i6 39 i7-5
0*9834342
19 47*9
48 15 16*4
S.2X445-X
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l l
328 5*98
164022*9
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-9821268
19 44*3
481727*4
2 1442-6
•9619173
18
3 28 26-24
1641 27-0
19 40-7
481938*3
2 1440*2
'9629072
>9
3 2846*20
1642 29-7
•9814635
19 37-1
482149*3
21437*7
•9618971
20
329 5*86
164331-1
•9807940
19 33*5
4824 0*2
21435-3
•9618870
21
3 29 25*21
164431-1
•9801 I 84
19 299
48 26 11*2
2 1432-8
•9618770
22
32944-24
3 30 2-96
N.i6 4 5 2o-7
0-9794368
19 26*3
19 22*6
48 28 22*2
S.2 1430*4
0*9618669
23
1646 26-9
•9787493
483033*1
21427-9
•9618569
24
3 3021*36
1647 22-7
•9780560
19 I 9 *0
483244T
2I4 25*4
•9618468
2 I
33039-44
33057-18
1648 17*1
•9773572
19 15-4
48 34 55'I
2 1422*9
•9618368
26
1649 10*2
'9766529
19 ii*7
4837 6-i
2 14 2O-4
•9618267
27
3 31 14-60
1650 i-8
•9759433
19 8-1
483917-1
2x417-9
•9618167
28
331 31-68
^165052*1
0*9752285
19 4-4
484x28*1
S.2 X4 I5-4
0*9618067
29
33148-42
16 51 40-9
•9745086
10 o-8
18 57-1
484339T
2 X4I2'9
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30
332 4*82
1652 28-3
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484550-1
2 14 10*4
•9617867
* 3I
3 32 20-88
165314-3
•9730542
18 53-4
4848 1-2
2 14 7-9
'9617767
Aug. 1
3323659
165358-8
•9723199
18 49-7
485O 12*2
2 14 5-4
•9617667
2
3325195
165441-9
•9715811
18 46-1
48 5a*3'3
214 2-9
•9617567
3
3 33 6 *95
^.165523*6
0*9708379
18 42*4
48 54 34-3
S.2 14 0*4
0*9617468
4
33321-59
1656 3-8
•9700905
18 38-7
485645*3
*I3 57'9
•9617368
5
33335-87
33349-78
165642*6
•9693389
18 35*0
485856-4
2 13 55*4
•9617268
6
165719*9
•9685833
18 31*3
49 ' 7*4
2 1352-8
•9617x68
2
3 34 3*3*
33416-47
165755-8
•9678240
18 27-6
49 318-5
21350-3
•9617068
165830-3
•9670610
18 23-8
49 5*9*5
21347-7
'96x6969
9
33429-25
N.1659 3-2
0-9662945
l8 20-1
49 7 4<>'S
S.2 1345*2
0*96x6870
10
33441-64
165934-7
•9655247
18 16 *4
49 95i'6
2 1342*6
•96x6771
11
3 34 53' 6 4
17 4-8
•9647519
18 12*7
4912 2*6
2 I3 40'I
'9616672
1*
3 35 5'*6
17 033-3
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18 8*9
491413*7
2 13 37*5
•9616573
13
33516-48
17 1 0-4
•9631977
18 5**
491624-7
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sa;
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and
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Digitized by
c
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264
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rURN
, 188
2.
MEAN TIME.
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and
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Right
Ascension.
Apparent
Declination.
Log. of
TrueDist
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the Earth.
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centric
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1
MEAN TIME.
1
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and
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Apparent
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Apparent
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Log. of
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Digitized by
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.2623
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MEAN TIME.
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and
Day.
Apparent
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Apparent
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Log. of
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Helio-
centric
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Bad. Vect
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Apparent
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the Earth.
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Passage.
Helio-
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Log. of
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Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
h m •
t *
h m
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July 4
II 646*41
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1
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268
•NEPTUNE, 1882.- /w>«~ aa/:2>-"*6
MEAN TIME.
Month
and
Daj.
Apparent
Right
Ascension.
Apparent
Declination.
Log. of
TroeDist
from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Bad. Vect
Noon.
Noon,
Noon.
Noon.
Noon.
Noon.
h m s
t *
h m
* n
9 *
Jan. 1
248 2*35
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Apr. 3
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Digitized by
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NEPTUNE, 188
2.
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MEAN TIME,
Month
and
Day.
Apparent
Bight
Ascension.
Apparent
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Log. of
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from
the Earth.
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Helio-
centric
Longitude.
Helio-
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•4745a8o
6
3 719*89
3 711*26
154134*4
154045*6
16 2*8
47 i*3* 1
146 8-6
•4745279
10
•4671946
15 46*9
47 *5i'3
146 8-3
•4745*78
14
3 7 0*65
N -!5 39 49-3
1*4663382
15 31*0
47 419*5
S.146 7-9
1 '474*278
18
3 648*14
I5 3845-5
153734-8
'4655184
15 150
47 5 47*7
146 7*6
•4745277
22
3 6 33-79
-4647393
14 59*1
47 7i5'9
146 7*3
•4745276
26
3 617*70
153617*5
'4640052
14 43'i
47 844-1
146 7-0
•4745275
^ 3 °
3 5 59-98
'5 34 54-1
•4633199
•4626874
14 27-1
47 1012*3
146 6-7
•4745274
Oct. 4
3 5 40-7*
153325*0
14 II'O
471140-5
146 6-3
•4745274
8
3 5 20*03
N.1531 50*8
1*4621113
x 3 54-9
13 38-8
4713 8*6
8.146 6*0
1*4745273
12
3 458*02
15 30 12*0
•4615949
471436-8
146 5*7
•4745272
16
3 4 34*85
15 28 29*1
•4611415
13 22-7
4716 5*1
146 5*4
•4745*71
20
3 41066
152642*8
•4607540
13 6*6
47*7 33'3
146 5*o
•4745270
a
3 345-Si
152453*7
•4604346
12 50*4
47x9 i-6
146 4-7
•4745269
3 319-85
1523 2*6
•4601855
12 34-3
472029*9
146 4-3
•4745268
Nov. 1
3 2 53-55
N.15 21 IO'O
I '4600078
12 i8*i
472158-2
8.1 46 4*0
1-4745267
5
3 226*87
15 19 16*7
•4599029
•4598721
12 2*0
472326-5
146 3-7
•4745266
9
3 159-96
151723*4
11 45 ;8
47*4 54*9
146 3*4
•4745265
n
3 13302
3 1 6*23
151530*9
•4599160
•4600342
•4602262
11 29*6
47*623*3
146 30
•4745264
*7
15 1340*0
11 13*4
47*751*7
146 2-7
•4745263
21
3 039*77
151151*3
10 57*3
47 2920*1
146 2*3
•4745262
* 25
3 013*79
2 5948*46
N.15 10 5*6
1*4604907
10 41*1
473048-6
8.I46 2*0
1-4745261
^ 29
15 823*5
•4608263
10 25*0
10 8*8
473217*0
146 1*7
•4745259
Dec. 3
2 5923*96
15 645*8
•4612315
47 33 45*5
146 1-4
•4745258
7
250 0*43
25838*03
15 513*1
•4617044
9 52*7
473514*0
1 46 1 * 1
"*745*57
11
15 346*2
'4622422
9 36*6
473642-5
146 0-7
•4745256
15
2 58 16*93
15 225*6
'4628418
9 20*6
4738 11*0
146 0-3
•4745254
19
25757*26
N.15 1 n*9
1-4634994
2 i" s
47 39 39*6
8.145 59*9
1*4745253
23
2 57 39* 16
15 5*6
'4642116
8 48-5
4741 8*i
1 45 59*5
•4745251
27
2 5722*71
H59 7-i
•4649744
8 3*-5
47 4* 36"7
1 45 59**
•4745250
3i
2 57 8*03
1458 16-9
•4657837
8 16*5
4744 5*3
145 589
•4745248
Digitized by
Google
27°
MERCURY, 1882.
AT TBANSIT AT GREENWICH.
Month
and
Day.
Apparent
Right
Ascension.
App. R.A.
on
intermediate
Day.
Var.of
B.A.
in
1 Hour
of
Long.
Sid.
Time
of
Mer.
Apparent
Declination.
App» Dec*
on
intermediate
Daj.
Var.of
Dec
in
1 Hoar
of
Long.
t§
Jan.
Feb.
h m g
18 41 5**71
18 56 3-63
* * *
19 17 26-97
19 31 45 '68
19 46 5-46
20 o 24*99
20 14 42-61
20 28 56*43
20 43 4-05
20 57 2-43
21 10 47-75
21 24 14-97
2i 37 17-59
21 49 47-12
22 I 32*65
22 12 20*55
22 21 54-44
22 29 55-67
22 36 4*58
Mar.
10 22 40 2*82
22 41 36*23
22 40 38*54
22 37 14*88
22 31 44'2i
22 24 39*28
22 12 40*75
22 4 55*19
21 58 7*28
21 52 44'80
« 49 3'3i
21 47 7-83
« 46 55*75
21 48 19*87
21 51 10*62
21 55 17-87
22
22
12
14
16
18
20
22
*4
26
28
2
4
6
8
xo
12
H
16
20
22
M
Apr.
o 31-70
6 43-07
22 13 43-97
22 21 27*56
22 29 48-07
22 38 40-69
26 22 48 1*53
28 22 57 47-51
30 23 7 56-21
1 23 t8 25-84
h n
18 48
*9 3
19 10
19 24
19 38
19 53
20 7
20 21
20 36
20 50
21 3
21 17
21 30
21 43
21 55
22 7
22 17
22 26
22 33
22 38
22 41
22 41
22 39
22 34
22 28
{M 90
n i«
22 8
22 I
21 55
21 50
21 47
21 46
21 47
21 49
21 53
21 57
22 3
22 10
22 17
29 25
22 34
22 43
22 52
23 2
23 13
*3 23
57-62
io'6i
18*43
36-11
55'5i
15 '35
34-15
50-14
1-19
4 *6i
57-01
33*99
49'M
37-12
46-17
4*76
1787
7*86
15-36
21*04
8-25
26*25
14*10
43-68
21*03
4f'M
42-99
22*02
X4'IX
40*90
5»'34
49'*3
26*34
35*05
5'3i
47-05
30*71
7-78
30*82
33*53
10*63
17*80
51*55
49*14
8-50
48*12
s
+ 17-68
I7-77
*
17-87
17-90
17-91
+ 17*89
17-83
17*73
17-57
17*34
17-02
+ 16-58
15-99
15-20
14-15
12-79
xi*o6
+ 8*93
6-38
3-48
+ 0-37
— 2-76
5-64
— 8-oo
9'55
zo -04
9*22
7-69
5-70
s
>-i7
>-i7
*
>*i7
17
17
17
18
18
18
18
o*x8
0*19
0*19
0*20
0*20
0*21
0-22
O-24
0-25
0-26
0-28
0-30
0-32
°"33
- 3'5i
- 131
+ 0-78
2*69
4-39
5*88
7*17
34
35
36
36
35
0-34
o % 33
0-32
0-31
0-30
0*29
0*28
8*280-27
9-23
'26
10*060*25
10-770*24
ix'400'24
+ U-95
12*450*22
12*900*21
+ i3'33|o-2i
o / *
S. 24 45 4*0
24 36 28*5
* * ' *
24 12 24-9
23 48 44-7
23 18 51*2
S. 22 42 39*8
22 o 7-7
21 II I5'6
20 16 7-0
19 14 51-2
18 7 44-6
8.16 55 13-5
15 37 58-i
14 16 56*4
12 53 29-9
xi 29 27-5
10 7 9-4
8. 8 49 25*6
7 39 3i
6 40 51-1
5 56 43*0
5 *9 4-8-5
5 « 44*9
8. 5 32 36
6 o 35-4
7 6 40-0
7 59 44
8 54 18*6
9 46 18
8. 10 32 48*0
11 11 59*1
»» 4* 554
12 5 17-4
12 19 8-5
12 24 43*8
8.12 22 24*8
12 12 34*1
" 55 34*3
11 31 46*5
11 1 30-3
10 25 3*2
8. 9 42 40*8
8 54 38-1
8 1 8*0
8. 7 2 23-0
o ;
8.24 41 30*3
24 29 57*8
24 21 56*9
24 I 21*2
*3 34 34'9
23 1 33*0
8*22 22 xi*3
21 36 29*1
20 44 27*8
19 46 14-2
18 42 0*4
17 3» 7*5
8. 16 17 8*2
14 57 5i-o
13 35 25- 1
12 11 25*1
*o 47 55*4
9 *7 3i'4
8. 8 13 x6*9
7 8 34-0
6 16 46*8
5 40 58-7
5 23 22*6
5 «4 5* '6
8. 5 44 38
!• 4« "•«/
7 3* 43'5
8 27 6*9
9 20 50*2
10 10 22*7
8.10 53 23*0
11 28 30*9
11 55 109
is 13 l6'0
19 22 56-9
12 24 32*2
8.12 l8 24*4
12 4 56*4
11 44 30-1
II 17 25*9
10 44 2
10 4 35*4
8. 9 19 21*2
8 28 33-1
7 3* *4'i
6 3* 5'9l
n
h 71
14*4
*
25*7
33'5
412
h 49-2
57-i
65-0
72-8
80-3
87-4
• 93-7
99-1
103-1
105-1
104-5
100-7
93'o
8i-i
64-8
44'9
■ 22 *o
• i-9
- 24*8
44-4
63*4
68*2
67-2
62*0
- 53-8
43*9
33*3
22*6
12 'I
2*0
7'7
16-8
*5'5
33-8
41*8
49'3
56-5
63-5
70-2
+ 76-6
H
23
**3
*
2-3
»'4
8'4
**4
*'4
a-5
a*5
2-6
2-6
2-7
28
29
3'o
3'i
33
3'5
3'7
3"9
4**
4*4
4'7
4'9
5 # i
5*3
5*3
5'3
5-*
5-o
4*9
4'7
4'5
4'4
4**
4-i
3'9
3-8
3'7
3-6
3*5
3'4
3*3
3-2
3*1
»
6-a
6-a
*
6- 2
6-2
6-3
6-3
6-4
6-5
6-6
6-7
6-9
7-i
7'3
7-6
7'9
83
8-7
9-2
9-8
10*4
ii-i
u-8
12*5
'3
13
i3'9
14-0
13-9
*3'7
12*9
12-5
12*0
n-6
U-2
io*8
10*4
XO'O
9*7
9*4
9-1
8-9
8-6
8-4
8-2
Digitized by
LjOO
o
MERCURY, 1 88*.
27
AT TRANSIT AT GREENWICH.
Month
and
Day.
Apparent
Bight
Ascension.
App. B.A.
on
intermediate
Day.
Var. of
R.A.
in
1 Hour
of
Long.
Sid.
Time
of
Sem.
pass*
Mer.
Apparent
Declination.
App. Dec.
on
intermediate
Day.
Var. of
Dee.
in
1 Hour
of
Long.
Apr. 3
5
7
. 9
11
«3
»5
«7
19
21
•3
*5
27
»9
Ma j x
3
5
7
9
XI
>3
15
17
19
21
*3
»5
»7
•9
3i
June 2
4
6
8
10
12
14
16
18
20
12
»4
26
28
30
2
h m 8
3 29 15-21
23 40 23*58
23 51 50-69
o 3 36-71
o 15 42*13
o 28 7*87
40 55*14
54 5'39
7 40-35
21 41-75
36 11*29
51 10*31
6 39*51
22 38-49
* *
Julj
o
o
1
1
1
1
2
2
*
2 47 27*91
3 4 *8*37
3 21 42-84
3 39 « '45
3 56 17*22
4 13 1*5*99
4 *9 5***4
4 45 54-o8
5 1 I5--53
5 «5 50*83
5 *9 34*79
5 4» *3'49
5 54 13*47
6 5 1-62
6 14 45*07
6 23 20*98
6 30 46*57
6 36 59* 18
6 41 56*26
6 45 35-68
6 47 55*98
6 48 56*78
6 48 39*32
6 47 7*07
6 44 26*40
6 40 46*99
6 36 21*98
6 31 27*71
6 23 52*82
6 19 9-38
6 15 3*98
h m s
*3 34 47-05
23 46 4*79
23 57 41*32
o 9 36-94
o 21 52*40
o 34 *8*73
47 *7 *«9
o 49*68
14 37*63
28 52*90
43 37*05
58 51*13
14 35*36
30 48-59
39 5'»5
55 55-90
13 4*37
30 22 '61
o
1
1
1
1
1
2
2
2
2
3
3
3 47 4i*o8
4 4 49-6i
4 21 38*21
4 37 S7' 74
4 53 40*30
5 8 39*35
5 22
5 36
5 48
49-48
6-27
26*01
5 59 45*45
6 10 1*61
6 19
11*63
6 27
6 34
12*73
2*l6
6 39 37*30
6 43 55*78
6 46 55*77
6 48 36*28
6 48
6 48
57-68
s*aa
6 45 54*77
6 42 43-30
6 38 39-24
6 33 57-38
/6 18
t 6 .6
6 21
6 17
6 13
27*48
0*83
20*84
8
+ 13*73
14*12
I4-5I
14*91
I5-32
I5*76
+ I6-22
16*72
17*25
17*82
l8'42
19*04
+ 19*67
20*28
*
21*06
2i*43
21*63
+ 21*64
21*44
21*02
20*42
19*64
18*73
+ 17*71
16*60
15-41
14*15
12-84
1 1 '46
+ 10*02
8*53
6*98
5*38
3*75
+ 2*09
+ 0*45
- i*i6
2*66
4*00
5*09
5-89
- 6*31
6*i8
5-58
- 4*59
8
0*20
0*20
0*19
0'X9
0*19
0*l8
0*18
0*18
0*17
0*17
0*17
0-17
0*17
0*17
*
0*18
0*18
0*18
0-19
0*19
0'20
0*21
0*22
0*23
0*23
0*25
0*26
0-27
0*28
0*29
0*30
0*32
0*33
o*34
0*36
0*37
0*38
0*39
0*40
0-41
0*42
0*42
0*42
0*42
0*41
0*40
58
49
36
18
56
29
N. I 59
3 33
5 10
6 50
8 32
10 15
N.II 59
13 4*
* *
16 12
17 47
19 16
N.20 37
21 50
22 52
. *3 44
24 26
24 58
N.25 20
»5 33
*5 38
*5 35
25 26
25 12
N.24 52
24 29
24 2
23 33
23 1
22 29
N.21 56
21 24
20 52
20 23
19 55
19 31
N.19 11
18 49
18 40
N.18 37
34*3
53*3
30*6
37*6
26*1
5i'3
59*6
41*2
35*o
13*6
2*8
i8*5
4*7
n*9
*
35*5
39*5
37*3
55*x
15*5
44-2
5**5
36*5
12-8
12*3
16-4
u-7
47*4
53*8
20*1
54*9
25*2
36-5
13*6
59*6
37*3
49*6
18*9
48* 1
0-2
38-7
26*2
4'i
3'2
45 -o
52*1
/
ft
S. 5
*4 49*7
4
13
46*5
2
58
7*3
1
38
3*4
S.
13 47*2
N. I
14 27*4
N. 2
46
25*0
4
21
45-6
6
5*6
7 40 54*4
9
*3
33*o
11
7
11-8
N.12
50 48*0
14 33
5-6
15 23
17-6
17
47*0
18
33
0*3
'9
58
18*9
N.21
15
16*4
22
22
46*2
23
20
6-7
*4
7
i*9
24 43
38*8
*5
10
22*2
N.25
*7
4 8*5
*5
36
42*1
»5
37 51*4
25
32
6*2
*5
20
16*3
*5
3
10*8
N.24 4i
37*7
24
16
22*8
23
48
ii*6
*3
17 47*7
22
45 54*3
22
13
13*9
N.21
4o 29*4
21
8
23*3
20
37
38*6
20
8
58*4
19 43
6*2
19
20
43*9
N.{S
«
ti*n
9*9/
18
44 14' 1
18
38
37*4
N.18
38
28*8
n
+ 82*8
88*8
94-6
100* 1
105*3
iio*3
+ 115*0
119*2
122*9
126*0
128*3
129*6
+ 129-5
127*9
122*0
115-3
106*7
+ 96*2
84-4
71*7
58-7
45*8
33*4
+ 21-8
ii-i
+ i*4
- 7*2
14*8
21*4
— 26-9
31*6
35*2
38*0
39*9
40*8
40*9/
40* 1
38*4
35-8
32*3
28*0
22*8
13*7
7*0
0*2
Digitized by
Goo
o
72
MERCURY, 1882.
AT TRANSIT AT GREENWICH.
Apparent
Right
Ascension.
App. R.A.
Var.of
R.A.
on
intermediate
Day.
in
1 Hoar
of
Long.
Sid.
Time
of
Sem.
pass*
Mer.
Apparent
Declination.
App, Dec.
on
intermediate
Day.
Var.of
Dec
in
1 Hour
of
Long.
I
30
Oct. 2
m t
11 53*21
9 50*68
9 6*70
9 48-S6
12 0*87
15 46*16
h
6
6
6
6
6
6
6 21 5*52
6 27 58-79
6 36 24*90
6 46 21*73
6 57 45*79
7 10 31*87
7 *4 3* '49
7 39 37 ,f 53
7 55 34*63
8 12 8-90
8 29 4*95
8 46 7*82
9 3 4'3°
9 19 43-93
* * *
9 43 56'09
9 59 26*64
o 14 25*15
o 28 51*6
o 42 46*99
56 12*84
1 9 11*04
1 21 43*57
1 33 52*42
* 45 39*45
57 6*33
8 14*56
19 5*3*
29 39*50
39 57*73
50 0*27
59 47*00
9 17'3*
18 30*14
27 23*72
35 55'59
44 »-3*
5i 39*73
58 41-93
5 i'79
h n
6 10
6 9
6 9
6 10
6 13
6 18
624
6 32
641
651
7 3
7 17
7 31
7 47
8 3
8 20
8 37
8 54
35
49
2
15
*7
39
5i
2
13
•M
34
45
54
4
13
22
3 3*
3 4o
3 47
3 55
4- *
4 7
L t
42*70
l8* 3 6
I656
43*20
41*80
14*07
20*46
0*34
12*17
5312
5898
23-40
57*73
30*51
48*06
35*17
36*40
37*58
26*75
54*95
59-i8
45*3*
59*92
4**34
53-10
33*50
45*28
30*40
50*84
48*55
25*32
42*71
42*06
*4*43
50*57
0*96
55*63
34*26
56*01
59-47
42-56
2*37
55-06
15*63
57*67
53*12
2
- 3*
i*
— o*
+ r
3'
5
+ r
r
IV
'3'
15*
16'
+ 18'
19'
20'
20*
21'
21'
+ 21'
20'
*
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19"
18'
+ 17'
'7'
i6«
15
15*
H'
+ 14*
H'
13"
13'
13'
12'
+ 12*
12*
II'
II*
10*
10*
t 9'
9'
8'
+ 7'
1
300-39
0*37
0*36
0*34
0*32
0*31
0*29
76
04
81
7*
^7
63
580-28
500-26
350*25
120*24
80
0*23
0'22
0*21
0'20
0*20
0*19
0*l8
0*l8
0-17
*
0-I7
0*17
0*I7
0*17
0*I7
0*17
0*17
0*17
0*17
0*17
0-17
0-17
0*18
0*18
0-18
0-19
0*19
0*20
0*20
0*21
• *22
O a 22
0*23
0-24
0*25
O I *
N.18 40 26*3
18 48 15*5
19 o 53-3
19 17 412
19 37 48-9
20 o 16*7
N.20 23 56*2
20 47 31*6
21 9 39*9
21 28 51*7
*i 43 33*i
21 52 9*2
N.21 53 7-8
ai 45 7*3
21 27 5*7
20 58 27*3
20 19 8*2
19 29 359
N.18 30 43*2
17 23 40*1
* * *
15 30 358
14 8 45
« 43 5*3
N.i 1 14 37-4
9 44 13**
8 12 366
6 40 24*5
5 8 7*7
3 36 i*-4
N. 2 5 o-6
N. o 34 52*1
8. o 53 56*1
2 21 7*9
3 46 284
5 9 43*i
S. 6 30 37*8
7 48 57*o
9 4 *5*o
10 16 44*o
11 25 34-4
12 30 33*1
S.13 31 13*6
14 *7 4'4
15 17 27*2
S. 16 1 35*6
o 1 1
N.18 43 42-8
18 54 0-6
19 8 48*8
19 27 23*6
19 48 493
20 12 2'0
N.20 35 49*5
20 58 52*0
21 19 43*5
21 36 52-1
21 48 42*8
21 53 41*2
N.2I 50 19*4
21 37 24*6
21 14 7*1
20 40 6*8
19 55 35*8
19 1
N.17 58
15*5
8*2
16 47 28-8
16 944*1
14 50 13*2
13 26 19*9
11 59 9-0
N.IO 29 36-9
8 58 3i'5
7 26 32-9
5 54 H*9
4 22 6*o
2 50 29*7
N. i 19 47-3
S. o 9 43-1
1 37 44*9
3 4 **9
4 28 22-4
5 50 28-8
8. 7 10 7*8
8 *7 3*4
9 40 59*3
10 51 36-7
11 58 34*3
13 1 27-5
8.13 59 47'4
14 5* 59*5
15 40 21-4
8.16 21 i*9
6-5
12*9
18-5
23*2
26
29
»9
28
26
21
14
6
- 4'*
16*1
29*1
4« '5
55*6
67-9
- 78-9
88*3
99*4
104*9
109*0
— 111-9
113-9
115*0
115*4
115*2
114-5
-113-4
iii*9
110*0
107*9
105*4
102*6
99*5
96*1
9**4
88*3
837
78-6
72-9
66*5
59*2
50*8
*
5*5
5*3
5*x
4-8
4*6
4*4
4*i
3*9
3-7
3*5
3*3
3**
3*0
2*9
2*8
*"7
2*6
2*6
**5
**5
*
**5
»*5
**5
»-5
**5
a*5
a*5
»*5
a*5
6
2
2
2
2
2
2
2*8
2*9
2-9
3*o
3'*
3-2
3*3
3*4
35
3*6
H*5
14-0
»3*4
12-8
12*1
115
10*9
10-3
9*8
9*3
8*
8-4
8-1
7*7
7*4
7*2
7*0
6*8
6*7
6-6
*
6-5
*'S
S'5
6-5
6-5
6-5
6*6
6*6
6*7
6*8
6*8
6-9
7*0
7*»
7*3
7'4
7-6
7*7
7*9
8-i
8*4
8*6
89
9**
9*5
Digitized by
Google
MERCURY, 1882.
273
AT TRANSIT AT GREENWICH.
Month
and
Day.
Apparent
Bight
Ascension.
Var.of
Sid.
App, B.A.
B.A.
Time
on
in
of
intermediate
1 Honr
Sem.
Day.
of
pass*
Long.
Mer.
Apparent
Declination.
Var.of
App. Dec.
Dec.
on
in
intermediate
x Hour
Day.
of
Long.
Oct. 4
6
8
10
12
14
16
18
20
32
»4
26
28
30
Nov. 1
3
5
7
9
11
13
15
17
*9
21
»3
«5
27
29
Dec. 1
3
5
7
9
11
13
IS
17
19
21
«3
*5
27
29
3i
h in s
14 10 30-34
14 14 56-64
14 18 7-93
14 19 49'9*
14 19 48*05
14 17 49*84
14 13 48-72
14 7 49-42
14 o 13-42
in s» 4i-«sl
tu 47 M'«o/
13 39 *5'3S
13 3* 39*97
13 28 20-43
3 26 39-24
»3 *7 37*73
13 31 2-17
13 36 30-93
13 43 40'Si
13 52 9-06
14 1 3817
14 xi 53-28
14 22 43*26
•4 33 59'9 6
'4 45 37'55
14 57 3X-88
15 940*14
15 22 0*43
*5 34 3i B 47
'5 47 «*45
16 o 2*8o
l6 13 2*22
l6 26 10*42
6 39 27*22
16 52 52*42
17 *> *5*7*
17 20 6-83
17 33 55*»5
17 40 52-05
17 54 50*43
18 8 54-55
18 23 3-53
18 37 16*26
x8 51 31*43
'9 5 47'44
9 20 2*39
h m
■
14 12
52*02
14 16
42-52
14 19
n*oo
14 20
2*84
14 19
4*08
14 16
4*68
14 XI
2-94
•4 4
ix*40
13 56
1*25
13 43
10*83
13 35 4**99
13 30
11*27
13 *7
9-52
13 26
49*"
13 29
2-95
«3 33 3**48
'3 39 54*5*3
•3 47
46-15
•3 5 6
47*05
14 6
40*75
14 17
14-48
14 28
18*69
14 39
46-44
14 5 X
32*81
15 3 34*4i
15 IS
48*86
15 28
14-68
15 40 50*77
•5 53
36-48
16 6
31*39
16 19
16 32
16 46
x6 59
17 13
17 27
35**3
47*75
8*79
38-08
15*33
0*16
* * *
17 47 50*47
1 51*83
18 15 58*49
x8 30 9*51
18 44 23-63
18 58 39-44
X9 12 55'l8
19 «7 8*74
•
+ 6-24
4*8i
3-xo
+ i-io
- 1-21
3*74
- 6-30
8*60
10-25
flO'f*
lief*
9-38
6-93
w 3.80
- 0-43
+ 2-80
5*64
7-98
9-83
+ IX-28
12*38
X3-2I
13-85
H*34
14*7*
+ 15*03
i5'3o
15*54
15*75
15 95
16-14
+ 16-33
16-51
16*69
16 -86
17*03
17-18
+ 17*33
17-40
17*53
17-64
17*73
17*79
+ 17-83
17*83
+ 17*78
8
0--26
0'27
0-28
0*30
0*31
0-32
0-33
o*34
o*34
Ml
Mi
0-33
0-32
0-30
0-28
0-27
0-25
0*24
0-22
0*21
0'2I
0*20
0*19
CX9
0*l8
0-l8
0*l8
0*17
0-17
0-17
17
17
17
17
17
17
17
17
17
0-17
17
17
17
18
18
18
o
8. 16
17
17
17
17
17
8.16
15
14
{::
10
9
s. 8
7
7
7
7
8
8. 9
10
II
12
13
14
s. 15
16
t *
38 32*2
7 6*3
*5 51*4
33 3*8
26 44-9
4 50*7
25 36-3
28 19*2
14 2X-4
48 S'9\
3* 47*5
12 29*6
9 44*3
29 14-7
12 8-6
16 48-8
40 3*4
18 7-0
7 19*9
4 *9*°
* 53*7
12 25-3
19 *3'5
26 30*2
3* 44'7
37 20*1
39 39*6
39 13*3
35 37-i
17
18
19
20 28 30*3
8.21
22
22
23
23
*4
S. 24
*4
«5
*5
*5
*5
S.24
*4
6.24
17 35-9
» 37*7
43 22*0
19 35*6
51 6-2
17 42-0
39 ii # 3
47 57*4
1
26-2
21*6
33
5i*5
7*9
14-8
6*o
o f
8. 16 53
17 17
17 31
17 31
17 17
16 47
8.15 59
14 53
13 3*
11 17
9 5o
8 38
8. 7 46
7 17
7 11
7 26
7 57
841
8. 9 35
10 35
11 39
« 45
13 5*
14 59
8. 16 5
17
18
19
20
20 53
8.21 40
22 23
23 2
*3 35
»4 5
24 29
* *
8.24 55
25 6
25 11
25 10
*5 3
8.24 50
24 31
S.24 6
ii*7
13-7
21*6
6-4
53*1
3**4
33*7
49-2
56-0
20*7
28-3
32-6
5'8
io*5
23-0
49*o
59*9
47**
17-2
48
48*7
50*3
31-2
32-6
38-1
32-9
3*5
57-0
i-6
5*6
*
22*8
63
10*9
27*0
45*4
57'9
57'7
39*5
- 4X*2
29-9
16-4
- 09
+ 17*2
37*9
+ 60-3
82-6
101-4
\ "4 ' »
I08 * 3
90*6
+ 65
35*9
+ 7**
- 18
39
55
- 67
75
80-4
83*1
84
83
- 8x*9
79*4
76
72-5
68-4
63
- 58
53*6
48
42-3
36-3
30
— 23*6
20*2
13*4
- 6*3
+ 0-9
8-4
16*0
23*8
31-6
Google
18
(nautical almanac, i 88*.)
74
VENUS, 1882.
AT TRANSIT AT GREENWICH,
Month
and
Day.
Jan. 1
3
5
7
9
zi
13
15
17
19
21
*3
*5
27
29
3 1
Feb. 2
4
6
8
10
12
H
16
18
20
22
*4
26
28
Mar. 2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
18
18 11
Apparent
Right
Ascension.
m s
o 32*26
30" 60
18 22 29*25
18 33 *7-74*g
8 44 3 5'5*S l8
18 55 22*26
19 6 17-33
19 17 10*31
19 28 0*78
19 38 48*26
19 49 3* 37
20 o 12*76
20 10 49*09
20 21 21*14
20 31 48*69
20 42 ii*55
20 52 29*63
21 2 42*82
21 12 51*11
21 22 54*49
21 32 52*99
21 42 46*71
21 52 35*71
22 2 20*12
18
* * *
22 l6 48*42
22 26 21*98
« 35 51*57
22 45 I7'40
12 54 39*73
23 3 58*84
23 13 15*05
23 22 28*65
23 31 39*98
23 40 49
23 49 57''8
*3 59 373
o 8 9*37
o 17 14*42
o 26 19*21
o 35 24" 08
o 44 29*35
53 35'34
1 2 42*36
1 11 50*76
1 21 o*86
App. RA.
on
intermediate
Day.
m
6
B
i'35
16 59*92
*7 58*55
38 56*76
49 54'°8
o 50*03
11 44*10
22 35*89
33 *4'9*
44 ">• 7*5
54 53'o6
5 31*44
16 5*66
26 35*49
37 °'7i
47 21*20
57 36'84
7 47-58
17 53'4i
*7 54'34
37 50-45
47 41*80
57 28*48
7 10*64
12 o*o6
21 35"
31 r
40 34'
49 58 •
59 *9'
8 37'
17 52'
27 4'
36 14*
45 »3'
54 30'
3 3-5'
12 41 '
21 46'
30 51-
39 5*5'
49 »'
58 8
7 16*
16 25*
»5 36'
Var.of
R.A.
in
1 Hour
of
Long.
Sid.
Time
of
Sem.
Mer.
8
3'7I
3*72
3*72
3*71
69
67
63
58
52
3*46
3-38
3*30
3*21
3*12
3-03
2*93
2*83
2*72
2*62
2*52
2*42
232
2*22
2*13
*
1-99
1*91
1*83
1*75
i*68
1*62
1-56
1-51
47
43
40
38
36
35
1*35
8
J6
36
0*36
36
36
C36
0*36
0*36
35
o*35
0-35
0-35
o'35
0*35
0*35
0-34
0*34
0*34
0*34
0*34
0-34
0*33
0*33
0*33
*
0*33
0*33
0-33
0*33
0*33
0*33
0*32
0*32
0*32
0*31
0*32
0*32
0*32
0*32
0*32
0*33
0*33
0*33
0-33
0-33
35
37
38
4i
48,0*33
Apparent
Declination.
o r
8. 23 24
23 27
23 28
23 25
23 20
23 12
8.23 1
22 47
22 30
22 10
21 48
21 23
8.20 56
20 26
19 53
19 19
18 42
18 3
8. 17 22
16 38
15 54
15 7
14 18
13 28
* *
8. 12 11
11 17
10 23
9 *7
8 30
App* Dec*
on
intermediate
Day.
N.
N.
31*6
53 f 4
21*0
53
318
16
7
8
21*7
49
349
4*
I5'6
19*2
57-9
i6*6
20*8
15*7
6*7
59*8
0*9
15*7
50*6
51*8
*
ii*6
45-8
8*o
*4'5
41*4
4-4
40*0
33*6
51-5
39'3
3*0
8-4
1*5
ix-9
*5 5
33-8
30-5
io*o
26*3
136
26*0
O I
8.23 26
23 28
23 27
23 23
23 16
23 7
8. 22 54
22 39
22 20
22 o
21 36
21 10
8.20 41
20 10
19 36
19 1
18 23
17 42
8.17 o
16 16
15 30
14 43
13 54
U 3
8. 12 37
11 44
10 50
9 55
8 59
8 1
34
29*0
29*2
34-5
45-6
3
*9
6
5*5
2
28
18
8. 7
6
5
4
3
2
8. I 3
8. O 2
N. o 58
2
3 1
4 *
N. 5
6
7
N. 8
35
26
54*5
5'*
4*i
56
47
44
5i
15
2
19
»5
38*0
35
«4
10*0
59
57-8
11
46*6
48
*3
37*7
36
*5
49*0
0*8
4*o
528
21*4
23*9
54*5
47 '3
Var.of
Dec
in
1 Hour
of
Long.
60
2-4
1*2
49
8'5
12*1
15-7
19*2
22*7
26*1
29*5
32-7
359
38*9
4i"9
44-8
47*5
50*2
52-7
55*1
57*4
59*5
6i*5
63-4
*
66*o
67*6
69*0
7o*3
7i-5
72-5
73*5
74*3 4
75 B o 4
75'5 4
76*0 4
76-3 4-
7*5*5 4
7*5-5 4
7*5-5 4'.
7*5-3 4*9
76-0 4*9
75*6 4*9
75'i 4
74-4 4*9
73*6 4-9
u
5'o
5'0
5-0
5'o
S-o
4*9
49
4'9
4*9
4'9
4'9
4'9
4'9
4*9
4'9
4*9
4*9
4*9
4'9
4-9
49
4*8
4*8
4-8
*
4-8
4*8
4-8
4-8
4-8
4-8
4-8
8
9
9
9
9
53
53
53
5*3
53
53
5'3
5'3
5*
5*2
5'*
5'*
5-a
5'*
5"*
5"*
5"*
5-«
5»
5*
5*
5 B *
5-2
5*
*
5'*
5*
5*
5'a
5*a
5-2
5'*
5'»
5*2
5-*
5*
5*«
5'*
5 1 *
2
2
2
5'2
5'*
Digitized by VjOOQ IC
VENUS, 1882.
275
AT TRANSIT AT GREENWICH.
Month
and
Day.
Apparent
Bight
Ascension.
App. R.A.
on
intermediate
Day.
Van of
R.A.
in
1 Hour
of
Long.
Sid.
Time
of
Sem
Mer.
Apparent
Declination.
App. Dec.
on
intermediate
Day.
Var. of
Dee.
in
1 Hour
of
Long.
Apr.
2;
2 1
2;
29
May
1:
\\
i\
i\
i<
2J
2;
*!
%\
2<
3
June 2
4
6
8
10
12
14
16
18
20
22
*4
26
28
30
July 2
1 30 12*98
1 39 *7'45
1 48 44-58
1
2
2
58 4*66
7 «7*95
16 54-70
26 25*15
35 59*50
45 37-9°
55 ao*47
5 7*3*
14 5851
24 54*09
34 54'o8
44 58H4
55 7'*°'
5 ao*i3
15 37*23
25 58*30
36 23*10
46 5138
57 m # *3
7 57'io
18 33-76
2
2
2
2
3
3
3
3
3
3
4
4
4
4
4
4
5
5
5 29 12*38
5 39 5*'48
5 5o 3357
6 z 15*16
6 11 56*73
6 22 37*80
6 33 17*85
6 43 56*40
6 54 32*95
7 5 7*o6
7 15 38*9
7 26 6*22
7 3*> 3°*4 a
7 4*5 50-53
7 57 6-I8
8 7 17*04
8 17 22*84
8 27 23*35
8 37 18*39
8 47 7-83
8 56 51-54
9 6 29-52
h m 2
I 34 49-90
1 44 5'6*7
1 53 24-24
2 2 45*88
2 12 io'88
2 21 39-45
2 31 11-83
2 40 48-18
2 50 28-65
3 o 13-35
3 10 2-37
3 19 55-75
3 *9 53-54
3 39 55'7i
3 50 2-27
4 o 13-12
4 10 2818
4 *o 47*29
4 31 10*25
4 41 36-82
4 5« 6*73
5 * 39' 6 3
5 13 i5-i6
5 *3 5»-«5
5 34 3*'*8
5 45 "'94
5 55 54'34
6 6 35*98
6 17 17*36
6 27 57*98
6 38 37*34
6 49 14-95
6 59 50*34
7 10 23*06
7 20 52-69
7 31 18*81
7 41 41*02
7 5* 58-93
8 2 12*23
8 12 20-59
8 22 23*77
8 32 21*
8 42 13-8
8 52 0*4
9 * 41-*
9 11 16*3
56
t
»'53
1*58
1*64
1-70
i'77
1-85
1*92
2*01
2*09
2-18
**7
•36
•45
•55
•64
-73
•81
•90
•98
•05
*I2
•19
**4
•29
•3*
'35
•36
'37
•36
35
•3a
•28
•*4
*i8
'12
•04
•96
■87
•78
•67
'57
-45
'34
•22
•10
•9«
0-33
0*34
o*34
0-34
0-34
0-34
0-34
o'35
0-35
o'35
0*35
0*36
0-36
0*36
0-37
0*37
o*37
0*37
0*38
0*38
0*38
o'39
0*39
0-39
0*39
0-40
0*40
0*40
0-41
0*41
0*41
0*41
0*42
0-42
0*42
0*42
0-43
o*43
0*43
o'43
0*43
0*44
0-44
0-44
o*44
0*45
o / n
N. 8 29 57*8
9 *7 43' l
10 24 36*0
11 20 30*7
12 15 21*2
13 9 t*5
N.14 1 25*4
14 52 27-0
15 41 59*9
16 29 58*4
17 16 16*4
18 o 47*9
N.18 43 26*9
19 24 8*0
20 2 45-4
20 39 13-6
21 13 27*5
21 45 21*9
N.22 14 52*1
22 41 53*2
23 6 21*1
23 28 11*7
23 47 21-4
»4 3 47' 1
N.24 17 25-9
24 28 15-7
24 36 14*6
24 41 21*4
24 43 35 *o
*4 4« 55*4
N.24 39 22-9
24 32 58-0
24 23 42*0
24 11 36-7
23 56 44-0
23 39 6*6
N.23 18 47 '7
22 55 51*0
22 30 20*4
22 2 20*0
21 31 54*6
20 59 88
N.20 24 7-7
19 46 56*6
19 7 40-8
N.18 26 25-8
o /
N. 8 58
9 56
10 52
11 48
12 42
'3 35
N.14 27
15 17
16 6
16 53
17 38
18 22
K.19 4
19 43
20 21
20 56
21 29
22 o
N.22 28
22 54
23 17
23 38
*3 55
24 10
N.24 23
24 32
*4 39
24 42
*4 43
24 41
N.24 36
24 28
24 18
*4 4
23 48
23 29
n
56-6
i6-5
41-0
4'3
20-5
23*4
6-9
24*9
n-4
20-3
45*9
21-8
2*6
+ 7**7
71-7
70-5
69*2
67*8
66*3
+ 64-7
62*9
61*0
58*9
568
54-5
+ 52-1
4*
15
37
4*
«5
4i
26
36-4
69
54'9
57*5
I2'0
36*6
9'5
49*9
36*9
30-7
3i'9
41*2
o'4
31-1
15-7
17-1
49-6 5-1
46-9 5-1
44- »
41*4
384
N.23
7
38
8
22
43 *4*7
22
16
38
6
21
47 *5
1
21
15
48
9
20
41
54
8
N.20
5
48
1
19
*7
33*9
18
47
17
8
N.l8
5
5
3
353
32*2
29*0
25-6
22*2
18-8
»5'3
n-8
8*2
4'6
i-o
2*6
6*2
9'8
i3'4
16-9
20-3
23-7
27-0
30-3
33*5
36*5
39*5
4«*4
45*i
47*8
5o*3
52*8
4*9
4*9
5*o
5*o
5*o
5*o
5*o
5*o
5*o
5*i
5-i
5*x
5*i
5»
S'»
5**
5»
5*3
5*3
5*3
53
54
5*4
5*4
5*5
5*5
5*5
5*6
5*6
5*6
5*7
5*7
5-8
5*8
5*9
5*9
6-o
6*o
6-i
6-i
6-2
6-2
6-3
6-3
Digitized by
KjOO
76
VENUS, 1882.
AT TRANSIT AT GREENWICH.
Month
and
Day.
Apparent
Bight
Ascension.
Var.of
Sid.
4PP-R.A.
B.A
Time
on
in
of
intermediate
1 Hour
Sem.
Daj.
of
pass*
Long.
Mer.
VENUS, 1 88a.
277
CecGT <<***»
AT TRANSIT AT GREENWICH.
Oct. 4
6
8
10
12
14
16
18
10
22
*4
26
28
30
Nov. 1
3
5
7
9
11
13
15
«7
19
si
*3
«S
*7
*9
Deo. 1
3
if*
7
9
11
«3
»S
17
19
21
»3
«S
*7
•9
31
37 9
44 46
5* 17
59 4i
6 58
14 6
ai 4
*7 5i
34 *4
40 4a
46 44
5a 27
57 49
a 49
7 *4
11 3a
15 11
18 18
ao 51
aa 47
«4 5
*4 43
24 39
*3 5i
aa 20
20 8
17 15
13 45
9 45
5 x8
7 o 34"
6 55 39
6 48 16'
6 43 3*'
6 39 5'
6 35 3'
54
23
'3*
•88
80
'*i6
35 l6
55
84!
38
29
64
T 1
4 1
4*
45
16
18
16
17
31 3°
28 31
26 9
24 26
23 22
22 58
6 23 14
6 24 7
6 25 37
n m
40
48
56
3
10
17
*4
3i
37
43
49
55
o
5
7 9
7 13
7 16
7 19
7 **
17 23
17 24
17 24
17 24
17 23
17 21
17 18
17 15
17 11
17 7
'7 *
^658
54/16 ss
2*1* SO
a Ji6 45
96 - T *
, 16 41
44 16 37
' 3 i6 33
+° 16 29
45 16 27
37 l6 2S
98 16 23
48 J.
98 1 23
* 16 14
9 * 16 16
5853
3**53
o'49
21*36
34 '05
37-29
29*69
9-71
35*67
45*82
38-28
11 -16
22*48
10-15
31*95
25-61
48 "77
39-08
54-19
31-82
29*90
46-63
20-70
u-54
19*59
46-41
34*87
49-16
34*80
58-47
7*74
10*881
5*
'3*
16
•05
89
12
79
56
"49
«5
'65
12
•81
49
•38
5
•85
1
•90
36
*57
48
'49
36
•02
9'57
9*46
9*33
9*18
9-01
8-82
8-59
8'33
8*04
7*71
7*34
6*94
6*49
5*99
5-45
4-8 7
4*23
3'55
2-81
2*03
1*21
0*35
o*54
44
33
19
99
70
30
5-76
6*o6
6*i8
6-05
5-76
5*3*
4'75
4*09
3*35
2-56
i'74
0*91
0*08
C72
1-50
***4
98
01
04
08
11
14
i-i8
1*22
1-26
I- 3
«-34
«*39
1*44
1-49
»*54
'•59
1*64
1-70
i*75
i*8i
1*87
1-92
1*98
2-03
2*09
2-13
2-17
2*21
2-24
2*26
2-27
2-27
2-26
2-23
2*20
2-16
2-II
2 *06
2*01
95
89
83
77
7«
66
8.23 27 23-
24 o 31-
24 31 39-
*5 o 4$*
*5 *7 47*
*5 5* 44*
8.26 15 34-
26 36 15 'i
26 54 46-9
27 11 8*8
27 25 20
27 37 20*6
5.27 47 9*5
*7 54 4^*5
28 o 11*2
28 3 22*6
28 4 19*3
28 2 59*1
8.27 59 19-1
*7 53 »5'7
*7 44 44*3
27 33 38-9
27 19 53'*
27 3 19-9
S.26 43 52*0
26 21 23-8
*5 55 5**7
25 27 20-4
*4 55 53*9
24 21 48*1
S.23 4S 27*2
23 7 21-9
22 8 26*0
21 29 2*9
20 50 30-0
20 13 32*9
8.19 38 52*6
19 7 3-2
18 38 31*8
18 13 36-7
17 52 27-7
»7 35 7*5
8.17 21 32*5
17 n 33-9
8.17 4 59*'
8.23 44 12*0
24 16 20*4
24 46 27*9
25 14 32*4
25 40 31-9
26 4 25*2
5.26 26 io*7
26 45 47-2
27 3 14*2
27 18 30-9
27 31 36*8
27 4a 31*5
5.27 51 14*6
*7 57 45*4
28 2 3-6
28 4 8-0
*8 3 5^*5
28 1 26-8
S.27 56 35*6
27 49 18-9
27 39 31*2
27 27 6'6
27 11 58-0
26 53 58-1
S.26 33 0-6
26 9 1*1
25 41 59*0
25 11 58*2
24 39 9-6
24 3 52-8
S.23 26
{S8
21 48
21 9
20 31
»9 55
8.19 22
18 52
18 25
18 2
17 43
17 27
8.17 16
- 7 7
8.I7 2
35*2
Il-tJ
41-1
37-2
46-7
53*4
34*6
21-4
36*3
33*6
19*0
5**3
6-8
52*0
53'*
-4**<5
40*2
37*7
35*i
3**5
29-9
-272
*4*5
21*8
19-1
164
136
-10*9
8*i
5*4
- 26
+ 0*2
3*i
+ 6-i
9*1
12*2
'5*5
18*9
22*5
+ 26-2
30-0
33*8
37*5
41-0
44*i
+ 46*6
48-4
49*4
48-8
47*3
44*9
+ 41-6
37*8
33'4
28-8
24-1
19*3
+ 14*7
10-3
+ 6*2
3*5
3*9
14-2
6
5
9
4
:6*8
7*3
7*9
.8-5
9-1
9*7
10-3
i # o
■«'7
12-5
'4*4
14-8
15-2
15-6
16*0
16
o
'8*7
'9'4
[0*0
|o*5
10-9
1*2
**4
i*4
;i*2
;o-8
to-4
29-9
9-2
8-5
7*8
7-0
6*2
5*4
14-6
^3*8
20-3
21*0
21*7
22-4
2 3 *I
*3*9
*4*7
25-6
26*4'
*7's|
28-i|
289 1
i
29-8
3o'6l
*3
32-0'
3**5|
3*9
33*3
33*4
33*4
33*2
3*9
3**4
3 i-8
31-1
30*4
29*6
28-7
27-9
27-0
26*2
*5*3
Digitized by
Got
o
278
MARS, 1 88a.
AT TRANSIT AT GREENWICH.
Month
and
Day.
Jan.
Feb.
Mar.
Apr.
i
3
5
7
9
ii
13
IS
17
»9
ai
»3
*5
*7
29
3*
2
4
6
8
10
12
H
16
18
20
22
H
26
28
2
4
6
8
10
12
M
16
18
20
22
24
26
28
30
1
Apparent
Right
Ascension.
h m
s
15 23*
ra 6*
8 57'
5 56-93
3 6-89
o 28*08
58 1-38
55 47*57
53.47*3*
51 113
50 29 '39
49 ™ '3°
48 989
47 "'05
46 48-57
46 29-17
46 23-56
46 31-37
46 52*20
47 25*62
48 11-22
49 8'6i
50 17-39
51 37-18
53 7*56
54 4*''3
56 38-47
58 38-10
o 46-54
3 3*36
5 28-16
8 0*52
10 40*04
13 26*39
16 19-21
6 19 l8'22
6 22 23*12
6 25 33-68
6 28 49*61
6 32 10-70
6 35 36-63
6 39 7-19
6 42 42*04
6 46 20*93
6 50 3-63
6 53 49-90
App. R. A
on
intermediate
Day.
h m t
6 13 43*
10 30*
7 25-84
4 3<>*57
1 46*03
5 59 I3'i
5 56 52*82
5 54 45*71
5 5» 52*43
5 5i *3'44
5 49 49' 0X
5 48 39^6
5 47 44
5 47 3"
5 4*5 37
5 46 24
5 4*5 *5
5 46 40'
47 7
47 46
48 38
49 4i
50 55
52 21
53 5*5
55 4*
57 37
59 4i
* 53
4 14
6 43
9 '9
71 2
14 5*
6 17 47
6 20 49
6 23 57
6 27 10
6 30 29
6" 33 53
6 37 21
6 40 54
6 44 30
6 48 zi
6 51 56
6 55 44
Var. of
RA.
in
1 Honr .
of '_
Long. Mer.
Sid.
Time
of
Sem,
t
4'17
4-03
3'85
365
3"43
3'i8
92
°5
36
06
•76
45
1*15
0-85
o-55
0*26
0'02
0*30
0*57
0*82
1*07
1*3*
i'55
i"77
i*99
2*20
2*40
*'59
2
2
3*79
3-91
4*03
4*14
4'*4
4'34
4 # 43
4-5*
4* 60
4*68
4'75
0*67
0-67
o-66
o-66
0*65
0*64
0-63
0*62
o*6i
o-6o
0*59
0-58
0-57
0*56
0-55
0*54
0-53
0*52
0*51
0*50
0*49
0-48
0-47
0-46
0*45
°'44
0*43
0-42
0*41
0*41
0*40
0-39
0*39
0-38
0*37
0-36
0*36
0*35
0*35
0*34
0-34
0*33
0*32
0*32
0*32
0-31
Apparent
Declination.
App, Deo.
on
intermediate
Day.
Var. of
Dec
in
1 Honr
of
Long.
o 1
N.27 4
27 6
27 8
27 9
27 10
27 10
N.27 zo
17 9
27 8
17 6
27 5
27 3
N.27 1
26 59
26 57
26 55
26 52
26 50
N.26 48
26 46
26 43
26 41
26 39
26 37
N.26 34
26 32
26 30
26 27
26 25
26 22
N.26 20
26 17
26 14
26 11
26 7
26 4
N.26 o
25 56
25 51
*5 47
25 42
«5 37
N.25 31
25 25
25 19
N.25 12
1
33*0
25*2
40*3
20-8
29*9
11*0
*7'4
22
59
21
3i
33
27*7
17
5 # o
5i"
36*
22*
7*9
54'i
40*4
268
12
56
39
18
53
24*0
48*8
6-6
i6- 3
16*6
6*3
44*4
10*0
21*3
17*7
57*7
20*5
24*9
10*2
35'7
40-5
23-8
44*9
o
N.27
*7
27
27
27
*7
N.27
27
*7
27
»7
27
N.27
26
26
26
26
26
N.26
26
26
26
26
26
N.26
26
26
26
26
26
N.26
26
26
26
26
26
N.25
25
25
»5
25
25
N.25
25
25
N.25
5 223
7 34-o
9 7'3
10 4*7
10 29*1
10 13-7
9 S2'o
8 57' 3
7 42*9
6 12*2
4 27-9
2 33*4
o 31*1
58 23
56 ii*5
53 58
51 43'9
49 29*3
47 i5'o
45 0*9
42 47'3
40 33*7
38 i9'7
36 4*9
33 48-4
31 29*1
29 6*4
26 39*4
24 7*2
21 28*6
18 42-5
15 47*7
12 42*8
9 26*9
5 58'9
2 17-5
58 ai'4
54 9'8
49 41
44 5S'o
39 50'o
34 25-5
28 40*7
22 34'9
16 7*2
916*9
3-6
2*7
*"9
1*2
•*S
0*1
0-7
i*i
1*5
'•9
2*2
2'4
2"5
2'7
2'7
2*8
28
2*8
2-8
2*8
2-8
2*8
28
1*8
2*8
2-9
3-0
3'»
3*2
3'3
3*5
3'6
3'8
4'i
4*3
4*6
4*9
5*2
5'6
6*o
64
68
7*2
7*6
8*i
8'5
w
9*0
8*9
8*9
8*8
8'7
8*6
8*4
8'3
8*2
8*
7*9
7'8
7*6
7'5
7*4
7'2
7-0
6*9
6*8
67
6
6
6-
6-
6"
5
5-8
5'7
5-6
55
5'4
53
5*2
5"i
5'o
4*9
4'9
48
4*7
4-6
4-6
4*5
4-4 r
4'3 6 *
4*3 6-
4*1 6-
Digitized by
Googk
MARS, 1882.
279
AT TRANSIT AT GREENWICH.
Month
and
Day.
Apparent
Right
Ajcenakm.
App. R A
on
intermediate
Day.
Var. of
RA
in
1 Hour
of
Long.
Sid.
Time
of
Sem,
pass*
Met.
Apparent
Declination.
App. Dee.
on
intermediate
Day.
Var. of
Dee.
in
1 Hour
of
Long.
Apr. 3
5
7
9
iz
'3
15
17
19
21
23
*5
27
29
Maj 1
3
5
7
9
11
»3
*5
»7
*9
21
23
25
27
29
31
June 2
4
6
8
10
12
«4
h m 8
6 57 39-51
7 1 32*26
7 5 27-97
7 9 26-50
7 13 27*65
7 17 31*33
37 '39
45-70
56-11
8-47
22'6l
38-4I
55*72
14-40
34*34
55'4*
17-52
40-59
8 13
8 17
8 21
8 26
8 30
8 35
8 39
8 44
8 48
8 53
8 57
2
6
11
'5
20
24
29
9 33
4'
29-
54*98
21*29
48-25
15*81
43*87
12*35
41-19
10-33
39 '70
9*26
38-98
8-84
38' 80
8-87
39-04
9'3i
39'66
h m 8
* 59 35-51
3 29*75
7 26*90
11 26-76
15 29*18
19 3-4-07
7 23 4i"»7
7 *7 50*65
7 32 2 '06
7 36 15*33
7 40 3 -3i
7 44 46-89
49 4*89
53 24*22
57 44*73
2 6-34
6 28-94
10 52*47
8 15 16*88
8 19 42*09
8 24 8*05
8 28 34*69
8 33 1-96
8 37 *9'78
8 41 58*06
8 46 26-73
8 50 55*73
8 55 24-99
8 59 54*46
9 4 H'io
9 8 53-90
9 13 23-81
9 17 53-82
9 22 23-94
9 26 54-17
9 31 24*48
9 35 54*86
8
+ 4*82
4*88
4' 94
5*00
5*05
5*io
+ 5-15
5* 20
5*24
5*28
5-3i
5'34
+ 5*38
5-4i
5'43
5-45
5*47
5*49
+ 5*51
+ 5*59
5-60
5-6i
5*6x
561
5-62
+ 5*62
5*62
5-63
5-63
5-63
5*63
+ 5*63
8
0*30
0*30
0'29
0*29
0*28
0-28
0*28
O-28
0'27
0-27
0'26
0-26
0*25
0*25
0*25
0*25
0'25
0*24
24
24
23
23
23
23
0'22
0*22
0*22
0'21
0-21
0'2I
0*21
0*20
0'20
0*20
0*20
0*20
0*19
O /
N.25 5
24 58
24 5o
24 42
24 33
24 24
N.24 14
24 4
23 54
23 43
23 32
23 20
N.23 7
22 55
22 41
22 28
22 13
21 59
K.21 44
21 28
21 12
20 55
20 38
20 21
N.20 3
19 44
19 25
19 6
18 46
18 26
N.18 5
17 44
17 22
17 o
16 38
16 15
N.15 52
ff
43*0
17-7
7'7
8
•6
4
12*
32
26*
N.
53
53
25
30
8*
17*
5«-
ix-3
558
I2-0
595
i8* 5
8*9
30-8
23*8
48*1
44-0
n-6
11*2
43*4
48*0
25*5
36-2
20-3
38-2
30*3
56-9
58-0
34"i
45H
32*1
o /
25 2
24 54
2446
24 37
24 29
24 19
r.24 9
23 59
23 49
23 37
23 26
23 14
r.23 1
22 48
22 35
22 21
22 6
21 51
r.2i 36
21 20
21 4
20 47
20 30
20 12
3*3
25-8
23
55
2
•8
43'
56-9
43'i
i-8
52-9
16-3
ii-4
38-4
37
7
9-4
42*6
47*3
23*4
30-9
9*6
19*6
1*3
14*9
N.19 54 0-7
19 35 19
19 16 10' 1
18 56 34*2
18 36 31-5
18 16 2*5
N.17 55 7*4
17 33 46-8
17 12 0*6
16 49 49-2
x6 27 12*8
16 4 11*8
K.15 40 46*6
9-0
9*5
io-i
10-6
ii-i
n-6
12*2
12-8
13*4
13*9
M*5
15
- i5'7
16-3
16*9
17'
i8-i
18-7
19* 3
19-9
20*4
21*0
21*6
22*2
22*8
23*4
23
24
25
25
26
26
27-2
27*7
28*2
28*8
- 29*3
3*7
3*7
3-6
3-6
3*5
3*5
3*5
3*4
3*4
3*3
3'3
3*3
3'»
3*2
3-2
3'2
3*i
3*i 4-
3*1 4*
3*0 4*
3*o 4'
3*0 4*
3-0
2*9
2-9
2*9
29
2*8
2-8
Digitized by
^joogk
28o
JUPITER, 1882.
AT TRANSIT AT GREENWICH.
Month
and
Day.
Apparent
Right
Ascension.
App% R.A.
on
intermediate
Daj.
Var.of
R.A.
in
1 Hoar
of
Long.
Sid.
Time
of
Sem
pass*
Mer,
Apparent
Declination.
App. Dee.
on
intermediate
Daj.
Var.of
Dec
in
1 Hoar
of
Long.
I
Jan. 1
3
5
7
9
11
13
15
17
«9
si
»3
»5
*7
*9
3'
Feb. 1
10
12
H
16
18
so
as
*4
16
28
Mar.
4
6
8
10
h m s
a 56
4i"79
a 56 38*71
a 56
18-88
a 56
is- 34
a 56
9-08
a 56
9-10
a 56
12*42
a 56
19-00
a 56
18-85
a 56
41*95
a 56 58-39
* 57
17-83
a 57 40-53
a 58
6-34
a 58 35-33
a 59
7-10
a 59 41-95
3
19-71
3 z
0-34
3 1
43"77
3 *
29-96
3 3
18-88
3 4
10 -46
3 5
4-67
3 *
»'43
3 7
0-71
3 3
»'43
3 9
6-53
3 I0
ia-95
3 lI
ai-61
3 xa
3* '47
3 13 45*46
3 15
0-53
3 "*
17*61
3 17 36-68
h m s
a 56 34-
a 56 33-
56 15-
56 io-
56 8-
56 io*
56 15*
56 S3*
56 35*
5« 49'
57 V
57 «8<
57 53'
58 so*
58 50-
59 »4*
o o a
o 39«
SI'
6
54'
44'
37
3*'
30^
7 3»'
*34'
9 39'
1047-
11 56'
13 8<
14 as'
15 3 8«
16 56-
18 16-
s
-0-31
o*a4
0-17
o-io
— 0-03
+ 0-03
+ 0'IO
0-17
ca4
0-31
0-37
0-44
+ 0-51
0-57
0-63
0-70
0-76
o-8a
+ 0-88
0-93
0-99
1-05
I* 10
1*16
+ i-ai
i*a6
131
1-36
141
i # 45
+ 1-50
i-54
159
1-63
+ 1*67
o t
.15 44 a8-3
15 44 7
15 44
15 44
15 44
>5 45
1
9
3i
8-0J
5«-
a-
N.15 45
*5 47
15 48 ar
'5 49 53
'5 5i 39'
15 53 3*
N.I5 55 5o # 4
15 58 15-4
16 o 5a*9
16 3 43-5
16 6 43-9
16 9 56
N.16
16
16
x6
16
16
N.16
16
16
16
16
»7
N.17
17
*7
17
N.17
13 ao 1
16 55'
ao 41'
24 3 6«
28 41*
3* 5^'
37 19*4
4i 51*3
46 31-4
51 19-0
56 14-0
* 15
6a 4
xi 38
16 58-5
as 33
27 53*8
1
m
N.15 44
16-3
»5 44
a-9
15 44
3'7
»5 44
188
15 44
48-0
15 45 3i'4
N.15 46
38-9
15 47 40-3
15 49
5-6
15 50 445
15 5a
369
15 54 43-6
N.15 57
i*3
15 59 3*-6
16 a
i6*a
16 5
u-7
16 8
19-0
16 XI
37-5
N.16 15
7-0
16 18
47'»
16 as
37-6
16 26
37'8
16 30 47-6
x6 35
6-6
N.16 39 34-3
16 44
10-4
16 48
543
16 53 456
16 58 44-i
17 3 49"3
N.17 9
0-7
17 14
17-9
17 19 40-5
17 35
8-2
N.17 30 40-6
o-6
o'3
o-o
0*3
o-6
0-9
x-a
1*5
i-8
3-1
3-3
2*6
*9
3*
34
3 # 7
3*9
4*1
4'4
4-6
4-8
5 # o
5 # «
5 '4
5-6
5-8
5'9
6-i
6-2
6'4
«-5
6-6
6-7
6*8
6-9
21*0
20-9
20*8
20-7
20-5
20*4
io*3
20*1
20-0
19-9
19*7
19-6
19-5
'9'3
19-3
19-1
19-0
188
i8- 7
18-6
i8- 5
i8- 4
i8-s
181
18-0
17-9
I7'8
i7'7
17-6
i7'5
»7'4
I7-3
17-3
17-1
17*0
a-o
a # o
a-o
a-o
a-o
a'o
3-0
»'9
i-9
i'9
*"9
i'9
i'9
l- 9
1-8
i-8
i-8
8
8
8
8
8
7
«"7
i'7
«'7
»'7
'"7
**7
i*7
x'7
i*7
i-6
i-6
Digitized by
Google
JUPITER, 1882.
281
Month
and
Daj.
Aug.17
*9
21
*5
*7
29
3*
Sept. 2
4
6
8
10
12
H
16
18
20
22
*4
26
28
30
AT TRANSIT AT GREENWICH.
Appartskt
Bight
h m s
41 16*07
4* 4i 'S3
44 5*09
45 26*69
46 46*29
48 3*81
49 i9 # «
50 3« '43
5* 43'4i
52 52-08
53 58-37
55 **«
56 3*51
57 2*22
57 58a6
5« 51*57
59 4*-"
29*83
1 14*65
1 56*54
* 3544
3 "-3»
3 44"°7
4p. R.A
on
intermediate
Day.
h m ■
Var.of
RJL
in
1 Hour
of
Long.
4i 59'
43 «3'
44 46*
46 6'
47 »5
48 41'
49 56'
51 8
52 18
53 »5
54 30'
55 33
56 33'
57 30'
58 25
59 "7
o 6
o 52'
« 35
16-
Sid.
Time
of
Sem.
Mer.
+ i*8o
+ 1*76
1*72
i*68
1*64
i*59
x'55
+ 1*50
1*46
1*41
1*36
1*30
1*25
+ 1*20
1*14
1*08
1*02
0*96
0*90
+ 0*84
0*78
0*72
+ 0*65
Apparent
Declination.
1*29
N.22
1*30
N.22
1*30
22
1*30
22
1*31
22
1*32
22
i'33
22
i'33
N.22
I# 34
22
i'35
22
1-36
22
1 36
22
i'37
22
1*38
N.22
*'39
22
1*40
22
1*41
22
1*41
22
1*42
22
« '43
N.22
»'44
22
«'4S
22
1 * 4 6
N.22
54
54
55
55
56
56
57
57
57
58
58
58
58
58
59
59
59
59
59
59
59
59
59
App. Deo*
on
intermediate
Day.
Var.of
Dee.
in
1 Hour
of
Long.
28*4
7'i
42*2
13*8
42*2
7*3
29*6
49*0
6*o
20*6
33'i
43-6
5*3
59*5
S'«
9*8
13*3
*5"9
i7'7
19*1
20*O
20*
21*
o*9
08
0-7
0*7
0*6
o*5
o-5
0*4
o-4
0-3
0*3
0*2
0*2
0*2
O'l
O'l
0*1
0*1
O'O
O'O
0*0
0*0
0*0
Digitized by
LiOC
6*7
6-8
6*9
7'o
7*i
7*1
7'*
7'3
7'4
7'5
7*6
7 # 7
7'8
7'9
8-o
8*x
8-2
8-4
8'5
8*6
8-7
8*8
8*9
o
82
JUPITER, 1 882.
AT TRANSIT AT GREENWICH.
Apparent
Right
Ascension.
App* R.A..
on
intermediate
Day.
Var.of
B.A.
in
1 Hour
of
Long.
Sid.
Time
of
8em.
pass*
Mer.
Apparent
Declination.
App. Dee.
on
intermediate
Day.
Var.of
Dee.
in
1 Hour
of
Long.
*
«
h m s
13-68
40-09
3'*3
23-03
39'4«
S»'54
2-17
8-36
11 '08
10-34
6-13
58-45
47-31
32*72
14-69
53*»3
28-38
0-17
28*65
53-89
15-96
34-96
50-99
4-15
14*60
22-44
27-82
30-86
3 I# 73
30-58
5 53 *7'57
5 52 22*87
5 51 16-67
5 50 9-17
5 49 o-58
5 47 51*"
5 46 41*00
5 45 30*46
5 44 i9"7 J
5 43 8*98
5 4i 58*48
5 40 48 '43
5 39 39*0*
5 38 30'47
5 37 22-97
5 36 16-70
6
4
6
4
6
5
6
5
6
5
6
5
6
6
6
6
6
6
6
6
6
6
6
5
6
5
6
5
6
5
6
4
6
4
6
4
6
3
6
2
6
2
6
1
6
6
5 59
5 58
5 57
5 56
5 55
5 54
t t
27-29
52-07
13'S5
31-68
46*44
57-78
5-70
10-15
ii' 14
8-67
2-73
53-31
40*45
24-13
4'39
41*23
14-69
44-82
11-67
35 -3*
55*84
«3*34
17*92
59 39*70
58 48*84
57 55*43
5 5-S 59-62
5 5*5 1-56
5 55 x-40
5 53 59-30
5* 55*4*
5i 49*95
5o 43-07
49 35-oo
48 25*94
47 16-13
4-5 5*77
44 55-io
43 44*33
42 33"69
4i »3*39
40 13*63
39 4*63
37 56-58
36 49-67
35 44*10
8
+ 0*58
0-52
0-45
0*38
0*31
0*24
+ 0-17
0-09
+ 0*02
— 0*05
o-ia
0'20
—0-27
0*34
0*41
0-48
0-55
0*62
— 0-69
0-76
0*82
0*89
095
•oo
'06
'II
•16
■21
'*5
•29
33
•36
'39
'4*
'44
'45
'47
'47
47
47
•46
45
'44
4*
39
37
t
1*47
1-48
1*49
i-5o
1-51
1-52
1*53
1*53
1*54
i-55
1*56
i'57
1-58
1*59
i-6o
i-6i
62
1*62
63
64
65
1*65
66
66
•67
'68
•69
1-69
70
1-70
1-71
1*71
1-72
1-72
1-72
1-72
1-72
1-72
1-72
1-72
1-72
1-72
1-72
1-71
1-71
'71
O I 8
N.22 59 ai'6
22 59 22*3
22 59 23*3
22 59 24*7
22 59 26'6
22 59 29'0
N.22 59 32
22 59 358
22 59 40*2
22 59 45-3
22 59 511
22 59 57-7
N.23
23
»3
*3
*3
»3
N.23
23
*3
*3
23
23
N.23
23
*3
*3
»3
*3
N.23
*3
»3
n
*3
*3
N.23
23
*3
23
*3
*3
N.23
*3
*3
N.23
o 5-0
13
O 21'8
o 31-1
o 40-9
o 51*2
i-7
12*6
23 -6
34*4
45*
555
5*4
14-6
23*1
30*7
37*1
42-4
46*5
49*1
50-2
49*8
47*8
44*1
386
31*4
22*6
I2'3
0*4
47* 1
3» # 4
16-8
0*1
o 42*6
1 n
N.22
59 "'9
22
59 22-8
22
59 *4*o
22
59 *5'-5
22
59 *7'7
22
59 30'5
N.22
59 33*9
22
59 37*9
22
59 4»-6
22
59 48" 1
22
59 543
»3
1*2
N.23
8-9
23
17-4
23
26*3
*3
* 359
*3
46*0
*3
56*4
N.23
1 7-1
23
1 18-1
*3
1 29-0
*3
1 39-8
*3
1 504
*3
2 o*6
N.23
2 10' 1
*3
2 19*0
*3
2 27*0
»3
2 34-0
*3
2 39*9
»3
2 44-6
N.23
2 48-0
*3
2 49-8
23
2 50*2
23
2 49-0
*3
2 46*2
*3
2 41*6
N.23
2 35-2
*3
a 27*2
23
2 17*7
*3
2 6-5
«3
1 53*9
»3
1 39-9
N.23
1 24-7
23
1 8-5
»3
515
N.23
33'6
It
o*o
o*o
o*o
o*o
o-o
h 0-1
■ 0*1
o-i
o-i
O'l
o-i
0*1
0*2
0*2
0*2
0*2
0*2
0*2
0*2
0*2
0*2
0*2
0*2
0-2
0*2
0*2
0*2
O'l
o-i
0*1
0*1
O'O
o*o
0*0
0*1
0*1
0"I
0*2
0*2
0*2
0-3
0*3
0-3
0-3
0*4
0*4
19*1
19*2
19-3
19-4
195
19*7
19*8
199
20*0
20
20*2
20*4
20*5
20*6
20-7
20*8
20*9
2I'I
21*2
213
214
21*5
21*6
21 '6
21
21
21
21
22 'O
22-1
22*1
22*2
22*2
22*2
22*3
22*3
22*3
22*3
22*3
22*3
22*3
22*3
22*2
22*2
22*2
22*1
1*8
1-8
1-8
1*9
1-9
i'9
i'9
i'9
i*9
i-9
1-9
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*1
2*1
2*1
2-1
2*1
2*1
2*1
2*1
2*1
2*1
2*1
i"I
2*1
2*1
2*1
2*1
2'I
2*1
Digitized by
UoogTe
SATURN, 1882.
28<
AT TRANSIT AT GREENWICH.
Month
and
Day.
Apparent
Right
Ascension.
App. B.A.
on
intermediate
Day.
Var.of
R.A.
in
1 Hour
of
Long.
Sid.
Time
of
Sem
pass*
Mer.
Apparent
Declination.
App. Dec
on
intermediate
Day.
Var.of
Dec,
in
1 Hoar
of
Long.
Jan. 1
3
5
7
9
11
"3
15
17
19
21
»3
*S
27
29
3i
Feb. 2
4
6
8
10
12
16
18
20
*4
h m s
2 16 27*38
2 16 23*08
2 16 20*47
16 19-57
16 20*37
16 22*89
16 27*14
16 33*09
2 16 40*75
2 16 50*13
17 1*21
17 13*97
17 28*41
17 44*49
18 2*19
18 21*51
18 42*42
19 4*88
19 28*89
19 54*40
20 21*41
20 49*90
21 19*84
21 51*19
22 23*94
22 58*04
23 33*48
24 10*22
h m 8
2 16 25'
2 16 21*
16 19*
16 19'
16 21-
16 24'
16 29*
16 36'
16 45*
16 55'
17 T
17 20'
17 36*
17 S3'
18 ii'
18 31'
18 53'
19 16'
19 41'
20 7*
20 35'
21 4«
21 35*
22 7*
2 22 40'
2 23 15
2 23 51
— 0*11
0*07
—0*04
0*00
+ 0*03
0*07
+ 0*11
0*14
0*18
0*21
0*25
0*28
+ 0*32
0*35
0*39
0*42
0*45
0-48
+ 0*52
o-55
0*58
o*6i
0*64
0-67
+ 0*70
0-72
0-75
+ 0*78
8
0*64
64
64
0*64
0*64
0*63
0*63
63
C63
0*63
0*62
0'62
0*62
0*62
0-62
o*6i
0*61
o*6i
o*6i
o*6i
o*6o
o-6o
o*6o
o*6o
o*6o
0*59
0*59
0*59
N.
o /
2 48*0
3 3*o
3 *7
4 0*2
4 4*' 1
5 32*9
6 325
7 4i'o
8 58*2
10 24*1
11 58*5
13 4i'5
15 32*6
17 31*9
19 39*2
21 54*2
24 16*9
26 46*9
29 24*2
32 8*5
34 59*8
37 57*7
41 2*3
44 i3'i
47 30'*
50 53*o
54 "'5
57 555
o t i
a 54'4
3 *3'9
3 4*'5
4 20*0
5 6*4
6 i*6
7
5-6
8
18*5
9 40' *
11
10*2
12
49*0
*4
36*0
16
31*2
18
34-6
20
45*8
*3
4'6
*5
31*0
28
4*6
30 45 '5
33
33*3
36
27-9
39 *9' a
42 36-9
45
50*9
49
10*9
5»
36*6
56
7'8
+ 0*2
0*4
o*6
o*8
1*0
1*2
+ i*3
i'5
i"7
i'9
2*1
2*2
+ * # 4
2*6
2*7
2-9
3'i
3*2
+ 3'4
3'5
3*6
3-8
3*9
4*0
+ 4-2
4'3
4'4
+ 4"5
Digitized by VjOOQK
8 4
SATURN, 1882.
AT TRANSIT AT GREENWICH.
Apparent
Bight
Ascension.
Var.of
App. R.A.
RA.
on
in
intermediate
1 Hoar
Day.
of
Long.
Sid.
Time
of
Sem.
pass*
Mer.
Apparent
Declination.
App. Dec.
on
intermediate
Day.
Var. of
Dec.
in
1 Hour
of
Long.
1
h m 8
26 38*44
27 20*99
28 2*40
28 42*63
29 21*65
29 59*42
30 35'94
31 11*14
31 45-01
3* 17*53
32 48-67
33 18*39
33 46* 67
34 13*47
34 3 8 *75
35 * *49
35 H m *7
35 45 »5
36 4*23
36 21*55
36 37*23
36 51*24
37 3-56
37 H'i8
37 *3*n
37 3©* 3*
37 35-8i
37 39'5 6
37 41*55
37 4^78
37 40*25
37 36-9«5
37 3'*9*
37 »5-'4
37 16*63
37 **4i
36 54*50
36 40*94
36 25*73
36 8*90
35 50*49
h m t
26 59*85
27 41
28 22
29 2
29 40
30 17
30 53
31 28
32 1
3« 33
33 3
33 3*
34 o
34 *6
34 50
35 n
35 35
35 54
36 13
36 29
36 44
3*5 57
37 9
37 18
37 a*
37 33
37 37
37 40
37 4i
37 4i
37 3«
37 34
37 *8
37 «
37 n
37 o
3*5 47
36 33
36 17
35 59
35 40
+ o*
+ o*
o*
o'
o*
o*
o*
+ o«
o*
o'
o*
o*
o*
+ o*
0«
o*
o*
o*
o*
+ o«
o*
0'
O'
O'
0«
+ o*
O'
o*
+ o-
— o*
O'
— o'
0'
o*
o*
O'
O'
— o*
o*
0"
— o*
o*6o
o*6o
o*6o
o*6o
o*6i
o*6i
o*6i
0*61
0*62
0*62
0*62
0*62
0*63
0*63
0*63
0*63
0*63
0*64
0*64
0*64
0*64
0*64
0*65
0*65
0*65
0*65
o*66
o*66
o*66
0*66
0*66
0*67
0*67
0*67
0*67
0*68
o*68
o*68
0*68
0*68
0*69
N.
N.
35 4i-4
37 59
40 11
42 18
44 ao-i
46 16
48 6
49 5*
5i 3*
53 4
54 3*
55 55
57 "
58 22
59 *7
26
1 19
2 7
2 48
3 «3-7
3 53
4 i6-5
4 34
4 45*8
4 5»-6
5i
45 '5
33*6
15
5*
*3
48*0
7*2
20
28
3i
28*7
20
7
49'4
26
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7 *
7 1
7 o
7 o
6 59
6 57
6 56
6 55
6 54
6 52
50*9
6*o
15-7
20*0
i8*8
I2'0
59*8
42*0
18-6
49' 5
14-6
34-i
47*7
55-6
57'7
53'9
44-i
28*4
6*7
39*1
55
26*0
40*7
49*4
522
49*2
40*3
*5'5
4*9
38'4
6-2
28*3
44*7
55*4
0*7
0*7
55*4
44 - 9
29*2
8-5
4**9
2*9
2-8
*'7
2*6
»'5
•'4
2*2
2*1
2*0
i'9
1*8
i-7
i'5
i-4
i-3
1*2
I'O
0*9
0*8
0*7
o*6
0*4
0*3
0*2
0*1
0*1
0*2
0*3
0*4
0*6
0*7
0-8
0*9
I'O
i*i
1*2
i'4
i # 5
i*6
i*7
i*8
7'9
7 # 9
7'9
7*9
8*o
8*0
8*o
8*o
8*i
8*i
8*1
8*2
8*2
8*2
8*2
8-3
8-3
8-3
8*4
7
7 o<
8 o«
8 o«
8 o
8 o
O'
i'
i*
i'
i'
i'
6 1
6 1
6 1
6 1
7 *
7 *
7 *
8 1
8*8 1
8*8 1
8*8 1
Digitized by
.jOO
o
SATURN, 1882.
285
AT TRANSIT AT GREENWICH.
Month
and
Day.
Apparent
Right
Ascension,
Var.of
Sid.
App. B.A.
R.A
Time
on
in
of
intermediate
1 Hour
Sem.
Day.
of
pass*
Long.
Mer.
Apparent
Declination.
App. Dec.
on
intermediate
Day.
Var. of
Dec.
in
1 Hour
of
Long.
Nov.
Oct. 2
4
6
S
10
12
M
16
18
20
22
*4
26
28
30
1
3
5
7
9
11
13
*5
*7
19
21
*3
»5
»7
*9
Dec. 1
3
5
7
9
11
13
15
17
19
21
*3
*5
»7
29
3i
h m s
35 30'SX
35 9*oi
34 46*00
34 ai'54
33 55*7<>
33 «8'5o
33 0*01
32 30*29
3i 59*41
31 27-43
30 54*4*
30 20*46
29 45*61
29 9*95
*8 33*54
27 56-45
27 18-79
26 40*62
26 2*03
25 23-11
*4 43*94
24 4-63
23 25*26
22 45*94
22 6*76
21 27-77
20 49*10
20 10*81
19 32*99
18 55-72
18 19*09
17 43*17
17 8*04
16 33*78
16 0*48
15 28*21
H 57*05
14 27*06
13 58-31
13 30*86
13 4*76
12 40*05
12 16*79
11 55*02
11 34*78
11 i6*ii
h m s
35 19*95
34 57-69
34 33*95
34 8*79
33 42*26
33 I4*4i
3* 45'30
32 14*99
31 43*5 6
31 11*05
30 37'56
30 3" x 4
29 27*88
28 51*84
28 15*08
27 37*68
26 59*77
26 21*37
25 42*60
*5 3*55
24 24*30
»3 44*95
*3 5*59
22 26*32
21 47*24
21 8*39
20 29*90
19 51*84
19 14*28
18 37*32
18 1*04
17 25*50
16 50*80
16 17*01
15 44*21
15 12*49
14 41*90
14 12*52
13 44'4»
13 17*64
12 52*23
12 28*23
12. 5*71
11 44-71
11 25*25
11 7-38
0*43
0*46
0*49
0*52
o'55
0*58
o*6i
0*63
0*65
o*68
0*70
0*72
0*73
0*75
0*77
0*78
0*79
0-80
0*81
o*8i
0*82
0*82
0*82
o*8a
o*8i
o*8i
o*8o
0*79
0*78
0*77
0*76
o-74
0*72
0*70
o-68
o*66
0*64
o*6i
0*58
0*56
o-53
0*50
0*47
0*44
0*41
0*37
N.
t n
51 5«*3
50 25*6
48 48*4
47 6*9
45 210
43 Ji'x
4i 37*4
39 4o-o
37 39'*
35 35*3
33 *8* 5
31 19*0
29 7*2
26 53*2
24 37*2
22 19*7
20 o*8
17 40*9
15 20*2
12 591
6 10 37*9
6 8 17
5 56*8
N.
3 37*5
i 19*5
59 3**
56 48*8
54 3^*8
52 27*3
50 20*7
48 17**
46 17*3
44 2i*3
42 29*5
40 42*2
38 59*5
5 37
21*9
49*6
23*0
2*1
47'»
38-4
36*1
40*2
51*1
8*6
N.
/
*
16 51
125
16 49
37*6
16 47
58*2
16 46
H*5
1644
266
1642
34*7
16 40 39*1
16 38
40*0
16 36
37*6
16 34 32*2
16 32 24*1
16 30
*3'4
16 28
o*4
16 25
45*4
16 33
28*6
16 21
io*4
16 18
50*9
16 16
30*6
16 14
9*7
16 11
48-5
16 9 275
16 7
6*9
16 4 47*0
16 2
28*3
.16
ii'i
»5 57 55*7
15 55 4**5
15 53
31*7
15 5"
23*6
15 49
18*6
15 47
16*8
15 45
188
15 43 *4*9
15 41
35*3
15 39
50*2
15 38
10*1
.15 36
35*i
15 35
5*6
15 33
41-8
15 32
23*9
15 3i
12*0
15 30
6-4
15 29
7-3
15 28
14*8
15 27
29*0
15 26
50-0'
»
i*9
2*0
2*1
2*2
2*2
»*3
a*4
**5
2*6
2 6
2*7
**7
2-8
2*8
2*9
2*9
2*9
2*9
**9
**9
2*9
2*9
2*9
2*9
2-9
2*8
2*8
a*7
2-7
2*6
»*5
a*5
«*4
2-3
2*2
2*1
1*4
1*2
I-I
1-0
o*8
H
8*9
8*9
8*9
8*9
8*9
9*0
9*o
9*0
9*o
9*0
9*o
9*
9*1
9*
9*
9'
9*
9*
9*
9*
9*i
9* 1
9*
9*
9*
9*
9*
9*
9'i
9* J
9'
9*i
9'i
9*i
9*0
9*0
9*o
9*0
9*o
9*0
89
8*9
8*9
8*9
8*8
8-8!
^
286
URANUS, 1 88a.
AT TRANSIT AT GREENWICH.
Month
and
Day.
Apparent
Bight
Ascension.
App. R.A.
on
intermediate
Day.
Var. of
B.A.
in
i Hoar
of
Long.
Sid.
Time
of
Sem.
ler.
Apparent
Declination.
App* Dec*
on
intermediate
Day.
Var. of
Dec
in
i Hour
of
Long.
t§
Mar,
Jan. a3
*5
*7
•9
3*
Feb. a
4
6
8
xo
12
«4
16
18
10
22
*4
26
28
2
4
6
8
xo
12
M
16
18
20
22
»4
26
a8
30
z
3
5
7
9
11
13
15
17
«9
ai
*3
Apr.
h m s
iz 17 36*14
11 17 23*89
11 17 11*01
11 16 57*53
11 16 43*48
11 16 28*87
11 16 13*74
11 15 58*1
11 15 42*00
" 15 »5*44
11 15 8-46
11 14 51*10
11 14 3338
11 14 1535
11 13 57*02
11 13 38*45
11 13 19*65
11 13 0*67
11 12 41*54
11 ia 22*30
ii 12 2*98
11 11 43*61
11 11 24**3
11 11 4*86
1 10 45*54
11 10 26*3
II 10 7*20
9 48*5
9 »9*49
9 10*95
8 52*68
8 34*69
8 17*03
7 59'7»
7 42-78
7 26*26
h m •
11 17 30*09
11 17 17*53
11 17 4*35
11 16 50*57
11 16 36*24
11 16 ai'37
11 16 5*99
11 15 50*11
11 15 3377
11 15 17*00
11 14 59*83
11 14 42*28
11 14 14*40
11 14 6*12
n 13 47*77
11 13 19*08
11 13 10*18
11 it 51*12
11 11 ji*93
11 it 12*65
11 11 53*30
11 11 33*92
11 n 1454
11 10 55*19
11 10 35*91
11 10 16-74
11 9 57*71
t
0*25
0*16
0*17
0*19
0*30
0*31
0*32
o*33
0*34
0*35
0*36
0*37
0*37
0*38
0*38
0*39
0*39
0*40
0*40
0*40
0*40
0*40
0*40
0*40
0*40
0*40
0*40
10*17
54*54
39*40
*4*77
io*66
5 57*"
5 44*17
5 3i'8i
5 20*09
5 9*oi
II
9 38*84
II
9 20*19
II
9 1*78
II
8 43*54
II
8 25*82
II
8 8*33
II
7 5120
11
7 34*47
II
7 i8*i6
II
7 »'3°
II
6 46*91
II
6 32*02
II
6 17*65
II
6 3*82
II
5 5C57
II
5 37*9i
II
5 »5'87
II
5 14*47
II
5 3*7*
8
0*13
013
013
0*13
0*13
0*13
0*13
0*13
0*13
0*13
0*13
0*13
013
0*13
0*13
0*13
0*13
0*13
0*13
0*13
0*13
0*13
0*13
0*13
0*13
0*13
013
0*390*13
0*39
0*38
0*38
0*37
0*36
0*36
o*35
0*34
0*33
0*32
0*31
0*30
0*29
0*18
0*13
013
0*13
013
0*13
013
0*13
0*13
0*16
0*15
0*14
013
•13
•13
13
0*13
0*13
0*13
N.
0*13
0*13
0*13
0I3|N,
. 5
5
5
5
5
5
'• 5
5
5
5
5
5
•5
5
5
5
5
5
• 5
6
6
6
6
6
. 6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
26 7*5
17 195
*8 55*3
30 14*6"
3i 57*5
33 33*7
35 130
3*5 55*3
38 40-3
40 28*0
42 18*0
44 io*2
46 4*5
48 05
49 58*1
5i 57*o
53 57*o
55 57*9
57 59*5
o
2
4
6
8
1*6
3*8
6
8*2
9*9
10 11*0
12 ii*3
14 10*6
16 85
18 5*1
19 59*9
8
N.
21 52
*3 43*7
25 32
27 18
29 1
30 42*6
32 20*4
33 SS'o
35 »6*4
3*5 54*5
38 19*0
39 39*8
40 56*8
6 42 98
6 43 i8«7
* 44 *3*5
»•
Na
N.
O 9
5 26 48*0
28 11*9
*9 39*5
31 io*6
3* 45*
34 "*9
3*5 3*8
37 47'5
39 33'8
4i ***7
43 13*9
45 7*1
47 **3
48 59*i
50 57*4
52 56*8
54 57*4
5658
59
1
3
5
7
9
11
13
15
17
19
20 56*6
22 48-5
14 38*3
6 16 15*7
6 18 io*5
19 526
31 3i*9
33 8*i
34 4i*i
36 10*9
37 37'*
38 59*9
6 40 18-8
6 41 33*8
6 41 44*8
6
6
o-5
**7
5*o
7*1
9
io*5
n*3
11
9*7
7*0
•'7
42 44*e
43 51*6.
44 54*»l
»
I'O
2*0
2*0
2*0
2*0
2*0
2*0
2-0
2*0
2'0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
2*0
i*9
i*9
i*9
1*9
1*9
i*9
i*9
i*9
1*9
i*9
i*9
i'9
0-5
0*5
o*5
o*5
05
0*5
0*5
o'5
o'5
o-5
0*5
0'5
o-5
0*5
o'5
o'5
o*5
o'5
o'5
o'5
o- 5|
0*5
0*5
°*5
0*5
0*5
0*5
0'5
0*5
0*5
o'5
o*5
o*5
05
05
0*5
°*5
0*5
o*5
0*5
o*5
0*5
o*5
0*5
0*5
o*5
Digitized by
Google
URANUS, 1882.
28
AT TBANSIT AT GREENWICH.
Month
and
Day.
Apparent
Right
Ascension.
App. RA.
on
intermediate
Day.
Var.of
Sid.
B.A.
Time
in
of
Apparent
1 Hoar
Sem.
Declination.
of
paw*
Long.
Mer.
s
8
/ H
— 0*21
0-I 3
N. 6 45 23-9
0*20
0*13
6 46 20*0
0*18
0*13
6 47 n*6
0-17
0-13
6 47 58*7
0-15
0*13
6 48 41*2
0-14
0*13
6 49 19*1
— 0*12
0*13
N. 6 49 52*2
O'lO
0*13
6 50 20*6
C09
0-13
6 50 44*2
0*07
0-13
6 51 3*0
0*06
0-13
6 51 16*9
0*04
0-13
6 51 25-9
— 0*02
0-13
N. 6 51 29*9
— 0*01
0-13
6 51 28*9
+ 0*01
0*13
6 51 22*9
0*03
0-13
6 51 12*0
0*04
0-13
6 50 56*1
o'o6
0-13
6 50 353
+ 0-08
0-13
N. 6 so 9*6
0*09
0*13
6 49 39*0
O'll
0*13
6 49 36
0*12
0*13
6 48 23*2
0*14
0*13
6 47 38-i
0-16
0*13
6 46 48*1
+ 0-17
0-13
N. 6 4S 53*4
0*19
0-13
6 44 54*0
0*20
0-13
6 43 49*9
0*22
0-13
6 42 41*3
0*23
0*13
6 41 28*1
0*25
0*13
6 40 io*4
+ 0*26
0*13
N. 6 38 48*3
0*28
0-13
6 37 21*9
0*29
0*12
6 3S $i-i
0*31
0*12
6 34 16*3
0*32
0'12
6 32 37*4
o § 33 0*12
6 30 54*4
+ o*35 !o'i2
N. 6 29 7*4
+ 0*36
0'12
N. 6 27 16*7
Var.of
6
App. Dec.
Dec
s
on
in
s
intermediate
1 Hoar
'•3
Day.
of
Long.
1
Apr.25
27
29
May
3
5
7
9
11
«3
IS
17
19
21
23
*5
*7
•9
3i
June 2
4
6
8
10
12
14
16
18
20
22
*4
26
28
30
2
4
6
8
h
July
11
11
11
11
11
11
11
11
11
11
11
11
11
11
11
11
11
11
11
1
11
11
11
11
11
11
11
11
11
11
11
11
11
1 .
11
11
11
11
m s
58*60
48*87
39-82
3^-49
23*87
16-98
10-83
5*43
0*78
5691
53* 80
51*49
49*96
49*22
49-28
50*14
51*78
54-22
S7'44
1-44
6*22
11-79
18-13
25*24
33"
41-76
51*15
1-28
12*15
*3*75
36-05
49-06
2*76
17-12
32*16
47-84
4*i6
2I'II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
I
II
II
II
II
II
II
II
II
II
II
II
II
II
a s
53 65
44' «6
35*57
27*59
20*33
13*81
8-03
3*01
5«'75
55*26
5**55
50*62
4
4
4
4'
4
4
4
4
3
3
3
3
3 49*49
3 49* 15
3 49'6i
3 50*86
3 5**9°
3 55*73
3 59*34
4 3*73
4 8*91
4 14*86
4 *i*59
4 «9'°9
4 37*35
4 4-5*36
4 56*i3
5 6*62
5 17-86
5 «9*8i
5 4**47
5 55*82
6 9*86
6 24-56
6 39-92
6 55-91
7 ™*56
7 29*82
/>*W
n*"
N.
645
6 46
47
48
49
49
50
50
50
5i
5i
5i
5i
5i
5»
5i
50
50
49
49
48
48
47
46
45
44
43
4*
40
39
38
36
35
33
31
30
28
26
*
ft
*
+ 1-2
**9
5**5
46-4
I-I
I-I
1*9
i*9
35*7
i-o
J *9
20*6
o*8
1*9
0-7
36-3
0-7
1*9
+ o*6
1*9
7-0
o*5
1*9
33*o
0*4
i*9
54*2
io*6
0-3
19
0'2
1 '9
22*0
+ o-i
1*9
28-5
0*0
i*q
30-0
— o-i
i*9
26-5
18-1
0*2
i*9
4*6
46*3
0*3
0*4
0-5
**9
19
1-9
23-0
- o-6
I# 9
54*9
0-7
1-9
21*9
o-8
**9
44*o
0-9
i*9
1*2
i-o
1*9
13*7
i-i
1*9
21*3
— 1*2
x *9
24-3
1-3
I 'Q
22*5
16*2
i*4
**9
i*5
1-9
5'»
49*8
i-6
i*9
x *7
1-9
299
56
- i-8
1-8
1-9
i*9
37*0
1-9
i-8
4**
2*0
1-8
»7*3
2*1
i-8
46-4
2*2
i-8
i*4
— 2*3
i-8
125
— 2*3
i-8
199
.-*' ilyattitJ tu,tij ccf'-.*'9*e
Digitized by
Google
88
NEFfUNE, 1882.
AT TRANSIT AT GREENWICH.
Apparent
Right
Ascension.
App. R. A
on
intermediate
Day.
Var.of
RA.
in
1 Hour
of
Long.
Apparent
Declination.
App. Dec
on
intermediate
Daj.
Var.of
Dec
in
1 Hour
of
Long.
5
m t
48 i-35
47 55 '70
4? 5o*53
47 45'86
47 4i*70
47 38*05
47 34' 9*
47 3» # 3*
47 30-26
47 28-73
47 *7'75
47 *7'3*
47 27*44
47 28*10
47 29-31
47 31-06
47 33 '3 6
47 3 6 *i9
47 39*57
47 43*48
47 47*93
47 54-9 1
47 58-4*
48 4-46
48 II '01
48 18*07
48 25-63
48 33-69
48 42-24
48 51*26
49 0-75
49 10-70
6 31-39
6 23-45
6 15*09
6 6*33
5 57-i8
h m s
2 47 58-46
2 47 53-05
2 47 48-I3
• 47 43*7*
2 47 39-81
2 47 3642
2 47 33*56
2 47 31*22
2 47 29-43
2 47 28-17
2 47 27-47
2 47 2731
2 47 27-70
2 47 28-64
2 47 30-12
2 47 32-14
2 47 34-71
2 47 37'8i
2 47 41*46
2 47 45-64
2 47 50-35
2 47 55'6o
2 48 1*37
2 48 7-67
2 48 14-47
2 48 2i*79
2 48 29*60
2 48 37-90
2 48 46-69
2 48 55-95
• 49 5-67
6 27-47
6 19*32
6 10-76
6 180
5 5a-46
t
— 0-12
o-n
0*10
0*09
0*08
0-07
— 0*06
0-05
0-04
0-03
— 0*01
o*oo
+ 0*01
0*02
0-03
0*04
0*05
0-06
+ 0*08
0-09
O'lO
o-ii
0*12
0-13
+ 0-14
0-15
0*16
0*17
0*18
0*19
+ 0*20
+ 0*21
— o*i6
0*17
0-18
0*19
-019
N,
17 54-0
17 35*5
17 19-4
17 5-6
16 54-1
16 45-1
16 38-5
16 34-3
16 32-7
16 33-6
16 37-0
16 43*0
16 51-4
17 2-4
17 "5'7
17 3''5
17 49-8
18 10-5
18 33-6
18 59-1
19 26*9
19 57-1
20 29*6
21 4*4
21 41-3
22 20*5
23 1*8
23 45'2
24 30*7
25 i8*r
26 7*6
26 58*9
N.15 37 23*2
15 36 44-9
15 36 5-1
15 35 23-8
N.15 34 41-0
o 1 *
N.14 17 44-5
14 17 27*2
14 17 12*2
14 16 59-5
14 16 49-3
14 16 41-5
N.14 16 36
14 -6 33
14 16 32
14 16 35
14 16 39
14 16 46
N.14 16 56
14 17 8-7
14 17 23*3
14 17 40*3
14 17 59-8
14 18 21*7
N.14 18 46*0
14 19 12-7
14 19 41-7
14 20 13*1
14 20 46*7
14 21 22*6
N.I4 22 0*7
14 22 40*9
14 23 23*3
14 24 7*7
14 24 54-2
14 25 42-6
N.14 26 33-0
N.15 37 4-2
15 36 25-2
15 35 44'6
15 35 2*6
N.15 34 19*1
-0*4
0*4
0-3
o'3
0-2
0-2
— o-i
— 0*1
o-o
o-o
+ o-i
0*2
+ 0*2
o'3
o-3
o'4
0*4
o'5
+ 0*5
0*6
06
0*7
0*7
o'7
+ o*8
0*8
0*9
o*9
I"0
1*0
+ I-I
+ I-I
-o-8
o-8
o-8
°*9
-09
03
o'3
0-3
0-3
o-3
o*3
0-3
0*3
0*3
o-3
03
o'3
0-3
0*3
0-3
o'3
0*3
o-3
0-3
o*3
0*3
0-3
0-3
o*3
o-3
o*3
0-3
o*3
o'3
0-3
0*3
0*3
0-3
o*3
o'3
0-3
0'3
Digitized by
o
NEPTUNE, 1882.
289
AT TRANSIT AT GREENWICH.
Month
and
Day.
Apparent
Bight
Ascension.
Oct. s
4
6
8
10
is
H
16
18
so
ss
24
26
s8
30
Nov. x
3
5
7
9
zx
13
15
17
19
SI
S3
•5
S7
S9
Dec. 1
3
5
7
9
it.
13
»S
17
19
si
s 3
*S
27
29
3i
App, IwA*
on
intermediate
Day.
Var. of
R.A.
in
1 Hour
of
Long.
m s
5 47'*4
5 37'7S
5 87-50
5 i6'qi
5 6*oo
4 54*79
4 43*29
4 3i'53
4 I9'S»
4 7'*9
3 54^4
3 4s*so
«9 '39
16-41
3' 34
50-15
36-86
S3-50
s 10*09
1 56*66
1 43*ss
1 29*80
1 16*43
1 3'is
o 49-89
o 36-78
o 23-78
o 10' 94
59 58S6
S9 45*76
59 33*48
59 -"'4*
59 9- 6 i
58 58-07
58 46-81
58 35-86
58 S5-S3
58 14-95
58 5-03
57 55-48
57 46-33
57 37-58
57 29*24
57 *i'33
57 13-87
57 6*85
h m ■
5 4*'74
5 3**67
5 **'*5
5 11*50
5 o*43
4 49-o8
4 37*44
4 a5-56
4 13*43
4 1-09
3 48-55
3 35-8s
ss-93
9*90
56'76
43-5a
30-19
i6'8o
3'38
49*94
36*51
23-11
976
o 56-49
o 43'3S
o 30*26
o 17-34
o 4*57
59 51-99
59 39'59
59 *7-4*
59 I5-48
59 3'8i
58 5S-40
58 41*30
58 30-51
58 20-05
58 9'94
58 O'SI
57 50-86
57 41*90
57 33*36
57 25-23
57 17-54
57 10*30
57 3-52
-O'SO
O'SI
o*ss
O'SS
o-S3
0-24
-0-S4
o*s5
0-25
o*s6
o*s6
o*s7
-o*s7
0-27
0*28
0*28
0-28
0*28
.0-28
0*28
0*28
0*28
o-s8
o-s8
-o*S7
o*s7
o's7
0-S7
o-s6
o*s6
-o-s5
0-S5
o-s4
o'S4
o-s3
o-ss
-o*ss
O'SI
O'SO
0*19
0*19
0*18
-0*17
0*16
0-15
-0-14
Apparent
Declination.
App. Dec.
on
intermediate
Day.
Var. of
Dec
in
1 Hoar
of
Long.
&
s
r n
33 56-9
33 "-4
32 24*7
3i-36'8
30 47-7
29 57*6
29 6-5
28 14*5
S7 si*6
26 28*1
25 33*8
*4 39'o
23 43*6
22 47-9
sr 51*8
20 55-4
19 58-9
19 2*4
18 5*9
17 9-5
16 13-4
15 i7"5
14 22*1
13 27-1
12 32-8
11 39*1
10 46*2
9 54*0
9 29
8 12*7
7 236
6 35-8
5 49*2
5 3*9
4 so* 1
3 37*8
2 57*2
s 18-1
1 40*8
1 5*3
o 31*6
14 59 59*9
N.14 59 30-1
14 59 2*3
14 58 36*6
N.14 58 13*0
o
IN.15
15
15
15
15
15
N.15
15
15
15
15
15
N.I 5
'5
15
15
15
15
IN.15
15
15
15
15
15
(N.15
15
15
15
15
15
N.15
15
15
15
»5
15
|N.i5
15
15
15
15
o /
N.15 33
15 32
15 32
15 3i
15 30
15 29
N.i 5 s8
15 27
15 26
15 26
15 25
15 24
N.15 23
15 ss
15 SI
15 so
15 19
15 18
N.15 17 37-7
15 16 41-4
15 15 45*4
15 14 49-8
15 13 54'5
15 is 59-9
N.15 is 5-9
15 11 is*5
15 10 SO'O
9 28*3
M
34-3
4»-2
0*9
is*4
22*8
322
40*6
48*X
54*9
1*0
6-5
ii-4
15-8
19-9
23*6
27*2
30-7
34-i
15
15
IS
N.15
15
15
15
15
15
8 37*6
7 48-0
59*5
is*3
s6*4
41-8
58-8
17*3
N.
2 37*4
I 59*s
1 ss*8
o 48's
o 15-5
14 59 44-8
N.14 59 16 -o
14 58 49*2
14 58 S4-5
N.14 58 i*9
M
n
-0-9
°*3
I'O
°*3
I'O
°*3
1*0
0-3
I'O
0-3
I'l
0-3
— 1*1
0-3
1*1
°'3
1*1
o*3
1*1
°*3
1*1
°'3
I'S
o"3
— I*S
°*3
I*S
0*3
I'S
0-3
I'S
0*3
I'S
0*3
I'S
0*3
— I'S
°*3
I'S
°'3
I'S
0-3
I'S
°*3
I'S
°"3
1*1
°*3
— I'l
°*3
I-I
0*3
I'l
°*3
1*1
0-3
1*1
°*3
I'O
°*3
— 1*0
°'3
I'O
°*3
1*0.
0*3
°'%
°"3
0*9
°'3
o*9
o*3
-o*8
0*3
o-8
°*3
o'8
°*3
0-7
°*3
0-7
°*3
o-6
°*3
-o'6
°'3
o-6
°*3
o'5
°*3
-0-5
0*3
19
(nautical almanac, 1882.)
Digitized by
o§k
ago MEAN PLACES OF STARS, 1882.
FOR JANUARY o-*
d
046. (See page 294.)
Star's Name.
Mag.
Right AttMnsioa.
Annual
Variation.
Declination.
Annual
Variation.
a. Andromeda
2
h m a
O 2 17-345
+ 3-0886
/ #
+ 28 26 20*08 -
it
+19-903
y Pegasi (Algenib)
. f\*ti - - • - -
3.2
3-4
O 7 9-596
13 24*813
3*0832
30533
+ 14 31 38*19
— 9 28 42*69
20-024
19-959
t ueti •
|9 Hydri - -
¥ * Plo+1 - _ •
-
1
19 31*877
24 0*938
33 49^34
37 39 '860
4* 33-545
3*2570
3-0591
3*3687
3-0116
3-1054
-77 55 8*82
- 4 36 3432
+55 53 23-70
— 18 38 4*85
+ 6 56 33-00
20" 30I
19 934
I9-795
J9*8oa
19658
a Cassiopeioe -I
Q r!<af5 - - _
(var.)
a. 3
p "oeti • ■
8 Piscium- -
- -
4-5
c Piscium- -
- -
4
56 49-235
3*1121
+ 7 «S *5'39
19-441
P Andromeda)
- -
a. 3
1 3 7-649
3'34*i
+34 59 4J-io
+88 40 46*91
- 8 47 33-38
+ 14 44 13 48
♦ 19-207
18-974
18-679
18-684
a Urs. Min. (Polaris)
A f\kti _ _ . - -
a
3
4-3
1 15 28*280
1 i§ 7-444
1 25 10-148
21*9334
2*9963
3*2002
Kjchl • - -
ij Piscium- -
• •
a Eridani(^cAemar)
1
1 33 19*021
2*2393
-57 So "83
+ 4 53 22-98
+ 8 33 47-48
18-382
y Piscium- -
. •
5-4
1 35 17-369
3*1146
18-304
Piscium - -
- -
4
1 30 9-752
1 48 7-239
2 31*326
2 11 5*802
2 21 53*094
2 37 11*168
* 44.58-633
3*1628
18-215
Arietis - -
- -
3.2
3*2984
3*3681
2*9870
3-1815
3-1019
3-2999
+20 13 49*93
I7-7S3
a Arietis - -
67 Ceti - - -
2
6
4
V
+22 54 13*30
- 6 58 0*43
+ 7 55 48-82
+ 2 44 14*44
+ 14 35 41*84
17-194
16-781
16-310
i5-3*7
15 -©a7
14-308
13-873
5 "UtJtl - - •
/Ceti - - -
<r Arietis • -
: :
a Ceti - • -
2.3
2 56 6*650
3-1293
+ 3 37 32-78
& Arietis • -
- -
45
3 4 5*'940
3*4201
+ 19 16 4583
a Persei - -
- -
a
3 15 54*165
3 18 27*880
3*2266
+40 26 22-94
+ 8 36 45-07
13-111
Tauri - -
- -
4-3
13-891
i Eridani - -
- -
3
3 27 22*256
2*8227
+ 3-5S38
— 9 51 32*21
12-347
1 Tauri - -
• -
3
3 40 28*229
+ 23 44 20* 13
-74 36 0*05
-13 So 43 # 3 6
+21 45 28*51
-78 47-21
11-407
y Hydri - -
• -
3-4
3 49 4 - 754
3 52 31*368
— I*0052
£■■#
7 1 Eridani - -
• -
3
+ 2*7945
A Tauri - -
• -
5-4
3 *57 4ri6i
4 6 6*254
35359
10*107
0' Eridani - -
. .
4-5
2*9231
9*629
8-989
8*306
y Tauri - -
- -
4
4 13 4-7I3
3-409°
+ 15 20 28*98
+ 18 55 2*42
c Tauri - -
• -
4-3
4 21 43*550
3-4941
3'4364
a Tauri (Aldebaran)
1
4 29 9*004
+ 16 16 14*73
7*570
6*880
H Eridani - -
- -
4-3
4 39 36-H9
2-0982
3-8960
— 3 28 19*30
+ 32 58 3960
1 Aurigae - -
• -
3
4 49 18-545
6*065
c Leporw - -
- -
4.3
5 27*893
5 7 58-398
5 8 51*987
2*5364
-22 31 50*95
5-o79
a Aurigae ( Capella)
1
4-4238
+45 52 33-97
— 8 20 21-72
4-081
jS Orionis (Rigel) -
1
2-8803
4*416
Tauri - -
- -
2
5 18 50*026
3-7899
+28 30 21*65
3-38i
& Orionis - -
- -
a
5 25 58-708
3*0645
— 23 16-56
2-923
a Leporis • -
- -
3
5 27 3 1 559
2-6458
-17 54 28-37
2*830
2*586
1 Orionis - -
- -
a
5 3° *3 - 4*9
5 35 22-617
3-0408
— 1 16 43-10
—34 8 10-89
a Columbia -
- -
a
2*1732
2- 106
k Orionis - -
- -
3. a
5 4* 956i
2*8442
3-2464
- 9 42 46-31
I 527
a Orionis - -1
Var.)
1
5 48 47-004
6 50*082
+ 7 25 0*72
+ 14 46 5217
+ 0*979
y Orionis - -
- -
5-4
3-4262
3-oi99
- 0*095
q Geminorum
. -
3-4
6 7 45-*58
+22 32 22*27
0*701
I*. Geminorum
m m
3
6 15 49-332
+ 3*6319
+ 22 34 20-67
- 1*526
Digitized by
Google
MEAN PLACES OF STARS, 1882. « 9 i
FOE JANUARY o-*
d
046. (See page 294.)
Star's Name.
Mag.
Right Ascension.
Annual
Variation.
Declination.
Variation.
a Argus (Canopus) -
X
h m s
6 21 19*869
+ 1*3303
1 n
-5; 37 53*97
+ 16 29 54*83
- 1*867
2-738
y Geminornm - -
*-3
6 30 53* 661
3-4658
( Geminornm - -
4.3
6 38 39*986
6 39 56-872
3*3702
+ 13 1 16*57
3-590
a Cairis Maj.( &ri«*)
Cephei 51 (Hev.) -
X
2*6461
— 16 33 19*10
4-721
5
6 44 47'°4i
30*1129
+87 13 37*°9
3-997
$ Canis Maoris - -
4-5
6 48 42*439
2*7872
-« 53 30'72
—28 48 45*00
4-263
s Canis Majorifl - -
2.1
6 53 59'3«>7
6 58 25235
7 13 4-5^7
2-3575
2*7166
4-702
y Canis Majoris - -
4-5
-15 27 35*55
5-069
i Geminorum - -
3.4
3*5904
+ 22 11 53*16
6-309
p Canis Minoris - -
3
7 20 45073
3-2564
+ 8 31 33-42
6973
a'Geminor. (Castor)
2.1
7 27 4-233
3 '8395
+ 32 8 45-28
7*520
• a 1 Geminornm - -
Aa .. -!-o , 37a
At .. -3*49
a. CtJiMin.{Procyon)
P Greminor. (FdUux)
1
7 33 7'503
7 38 5-638
3*1433
+ 5 31 33*o6
9*010
I* 3 88
X.2
3*6785
2*5246
+ 28 18 35*51
( Argus - - - -
4-3
7 44 ig-9"
7 56 16-119
8 2 31*126
-24 33 51*46
8*799
6 Cancri - - - -
5
36919
+28 7 25*45
9-816
15 Argus - - - -
3
2-5540
-23 57 54*2i
10-160
p Cancri - - - -
4.3
8 10 6*906
3*2580
+ 9 32 53*82
10*856
11*982
11 Cancri - - - -
6
8 25 52-998
3-4766
+20 50 26*92
y Cancri - - - -
4.5
8 36 27-321
3*4782
3-1821
+21 53 3139
12-643
t Hydras - - - -
3.4
8 40 3* "594
+ 6 51 2*71
12*967
i Urs» Majoris - -
3
8 51 7-399
4" 1344
3*2857
+48 3° I3-33
13*904
a Cancri - - - -
4
8 52 1-919
+ 12 18 49*02
13*721
§c Cancri - - - -
5
9 1 21*322
32554
+ 11 8 31*70
14*265
83 Cancri - - - -
6
9 12 23-592
3*3540
1 - 6062
+ 18 12 16*49
15*088
i Argus - - - -
2
9 13 55-830
9 21 47-266
—58 46 49*10
15*017
a Hydras .- - - -
2
2 9465
4*0406
— 8 8 52-66
15-434
6 Urate Majoris - -
3
9 24 57-367
+52 12 50-20
l6'2I2
Leonis - - - -
4-3
9 34 51*076
3*2050
+ 10 25 42*62
l6* 206
t Leonis - - - -
3
9 39 9-13*
3-4167
+ 24 19 0-19
+ 26 33 43-04
+ 8 36 34*55
16*406
p. Leonis - - - -
4
9 46 2*995
3-4200
16*787
ir Leonis - - - -
5
9 53 58*622
3-I75I
I7*I29
a Leonis (Regidus) -
1.2
10 2 5*199
3-1997
+12 32 36*10
I7'449
y* Leonis - - - -
2
10 13 27-910
3-3146
-f-20 26 16*13
18-077
7* Leonis - - - -
Am .. + 0*213
a* .. -1*28
ft, Hydra - - - -
4
10 20 23*005
2-8984
— 16 14 4*80
+ 9 54 46"* 71
l8'300
p Leonis - - - -
4
10 26 35*870
■ 3 * 1650
18*443
l8*86l
Y Argus - -(var.)
i-6
10 40 29*087
1043 3-198
2-3122
-59 3 5i*72
/ Leonis - - - -
5
3 1563
+ 11 10 8-96
18*955
d Leonis - - - -
5
10 54 27-918
10 56 26*210
3*0984
3'7546
+ 4 15 1-98
19*270
a Urs» Majoris - -
2
+62 23 14-93
+ 7 58 23-80
19-379
X Leonis - - - -
5
10 58 55*762
3*0976
19*427
I9677
I Leonis - - - -
2.3
11 749936
3*2001
+ 21 10 11-55
ft Crateris- - - -
3.4
II 13 26*493
2*9954
3*0840
3-6306
3-0689
-14 8 24*97
I9-462
t Leonis - - - -
5
II 21 52*072
11 24 23-164
+ 3 3° 2i*95
19-798
19*873
19*862
A Draconis - - -
3.4
+69 58 55*34
v Leonis - - - -
5.4
11 30 54*354
— 10 20*94
+15 is 53-89
(3 Leonis - - - -
2
11 43 2*390
3-0632
20*099
y Ursas Majoris - -
2.3
11 47 37*214
3-1838
3-0762
+ 54 21 2*29
20-025
v Virginis - - -
4.5
11 54 49*565
4- 7 16 18-91
20*089
c Corvi - - - -
3
12 4 3*448
3-0770
-21 57 48-33
20'04I
Chamaeleontis - -
5
12 11 27*310
+ 3*3951 -78 39 24*25
-19*979
Digitized by
Google
292 MEAN PLACES OF STARS, 1882.
d
FOR JANUARY 0—046. (See page 294.)
Star's Name.
Mag.
Right Ascension.
Variation.
Declination.
Annual
Variation.
q Virginia - - -
34
h m s
12 13 52*072
32883
r *
- 39*53
—20*047
a 1 Crucis - - - -
I
12 20 2*539
—62 26 40*90
19996
«■ Crucis - . - -
Ao .. +0*770
Ad .. — a*6o
** Corvi -..-
2.3
12 23 45*706
3 • 1048
-'5 Si 30-49
» 20*096
p Corvi - - - -
2.3
12 2§ 11*228
3-1332
3-0383
— 22 44 38*84
19*072
I9'86l
y* Virginis- - - -
3.2
12 35 40-853
— O 48 6*83
•/ Virginis- - - -
Aa .. +0*131
A< .. —4*66
ft Virginis- - - -
3
12 49 39*593
3*0221
+42 19*29
4-38 57 21*48
19-674
19*508
a. Canum Venaticor. -
3
12 50 30-354
2*8129
t Virginis - - -
3.2
12 56 18-179
2*9877
+ 11 35-37*28
19421
$ Virginis- - - -
4.5
13 5 50-409
13 18 58*573
3.0999
- 4 54 3 I "48
19*321
18*914
a Virginis (Spica) -
1
V*5*S
— 10 32 42*01
5 Virginis- - - -
3.4
13 28 40-857
3'°533
+ 28*72
18*511
t Bootis - - - -
5-4
13 41 39-280
2*8511
+ 18 2 43*64
+49 54 8-70
+ 18 59 23-04
-59 4» io*39
+26 56*83
18*062
ij Ureae Majoris - -
2
13 42 53-461
2*3711
2-8575
18*095
18*185
•9 Bootis - - - -
3
13 49 3 998
P Centauri • - -
1
13 55 30-34^
4-1770
17*616
r Virginis- - - -
4.5
13 55 3 8 '493
3*0495
17*623
a Draconis - - -
34
14 1 11-710
1*6199
+ 64 56 24*24
\m
a Bootis {Arcturus)
1
14 10 16-768
2*7341
2*7964
2*5865
+ 19 47 51-81
/Bootis - - - -
5
14 20 58-163
14 26 44*688
+ 19 45 28*98
16-337
p Bootis - - - -
4.3
+ 30 53 24-22
—60 20 58*77
15-941
a* Centauri - • -
1
14 31 35-152
4*0085
15-383
i* Bootis - - - -
*• 3
14 39 50*008
2*6190
+27 34 20*33
15-360
a Libr« - - - -
2.3
14 44 2I-09P
+ 3*3100
-15 33 203
+ 74 3 8 H # 9o
15-174
p Ursae Minoris - -
2
14 51 3-706
— 0*2360
14-752
if/ Bootis - - - -
4-5
H 59 *3' 397
+ a-5704
+ 27 2A 30*36
- 8 56 47*59
14-216
P Libras - - - -
2
15 10 39*409
3*2191
2*5389
13-514
a Coronas - - - -
2
15 20 41-541
15 38 27*357
+27 6 45*69
+ 6 47 51*85
12-298
a Serpentis - - -
2.3
2*9515
11*561
t Serpentis - - -
34
15 44 56-040
+ 2*9884
+ 4 50 1-50
+ 78 9 22*40
— 19 28 52-88
"-075
5 Ursae Minoris - -
45
15 48 18-408
— 2*2488
10*982
p l Scorpii - - - -
2
IS 58 34-57*
+ 3-4785
10-153
I Ophiuchi - - -
3
16 8 9659
3*1363
2-6438
3 'o 6 Sf
0*8086
— 3 23 21*30
+ 19 25 52*64
0-530
8-673
y Herculis - - -
3
16 16 42*862
a Scorpii (Antares) -
1.2
16 22 10*391
—26 10 7*50
8-330
q* Draconis - - -
3.2
16 22 23*973
+61 46 51*91
8-273
7-5*8
5 Ophiuchi - - -
3.2
16 30 39*682
3*2987
6*2950
— 10 19 37*22
—68 48 30 **9
a Trianguli Australia
2
16 36 10*904
7*199
5 Herculis- - - -
3.2
16 36 50*536
16 52 4*899
2*2629
+3 1 49 3-25
6-666
k Ophiuchi - - -
3.4
+ 2*8341
+ 9 33 34*74
5-834
t Ursae Minoris - -
45
16 58 6*119
- 6*3588
+82 13 45'57
5'345
fl Ophiuchi - - -
2.3
17 3 36*617
+ 3*4350
-15 34 38-57
+ 14 31 32*87
4*762
a 1 Herculis- - (var.)
3.4
17 9 16*004
2*7315
4-361
B Ophiuchi - - -
3.4
17 14 45*743
3--5774
2-9756
-24 52 47*86
+ 4 14 38*98
3*910
a- Ophiuchi - - -
5
17 20 39-584
3*404
P Draconis - - -
3.2
17 27 46*035
1*3513
+ 52 23 20*39
+ 12 38 49-70
2'8l0
a Ophiuchi - - -
2
17 29 27*352
17 37 38-539
2*7791
2*863
p Ophiuchi - - -
3
2-9597
+ 4 37 375
1*781
;* Herculis - - -
3.4
17 41 50*419
17 53 5I-958
18 1 45*283
2-3439
+27 47 25*67
2*325
y Draconis - - -
2.3
1*3921
+ 51 30 10*83
- <»-575
72 Ophiuchi - - -
3.4
+ 2*8426
+ 9 32 52*75
+ 0*216
Digitized by
Goo
o
MEAN PLACES OF STARS, 1882
,. 293
FOR JANUARY o-*<
1
>46, (See page 294.)
Star's Name.
Mag.
Right Ascension.
Annual
Variation.
Declination.
.Annnal
Variation.
p Sagittarii - - -
4
h m s
18 6 42*279
+ 3**5837
Of*
-21 5 17*97
+86 36 34*28
+ 0*580
& Ursa Minoris • -
4.5
18 10 23*837
-194232
0*923
0*652
ij Serpentis - - -
3
18 15 12*197
+ 3-1016
- * 55 40*55
X Sagittarii - - -
1
18 20 41*260
3-7021
—25 29 9*80
1*571
v Octantis- - - -
18 28 6*440
18 32 56*584
107-7100
—89 16 25*49
+ 38 40 27*94
+ 33 13 34*8i
2*510
a Lyra ( Vega) - -
1
2*0304
3*i53
4 '606
0* Lyrae - - (var.)
4
18 45 43*369
2*2119
• AquilaB - - - -
4
18 54 15*919
2-7183
+ 14 54 32-09
+ 13 41 20*98
5 Aquilae - - - -
j
18 59 59/060
2-7519
2-8134
5*121
t» Aquilffl - - . -
6-5
19 12 16*587
+ 11 23 0*95
+ 2 52 50*28
6*242
& AquilaB - - - -
3-4
19 19 32823
30231
6*923
A* Sagittarii - - -
5-4
19 29 31*435
19 40 38*986
3-5545
—25 8 32*56
r 65 !
8-528
7 AquilaB - - - -
3
+ 2-8529
+ 10 19 35*57
+88 56 54-37
X Ursaa Minoris - -
6.7
19 42 6*502
—62-9069
8-625
a AquilaB (Altair) -
1.2
19 45 1- 539
+ 2*9280
+ 8 33 27*30
+66 46*73
0-252
8*754
j9 Aqailaa - - - -
4
19 49 30*985
20 5 12*918
2-9472
AquilaB - - - -
3
3-0967
— 1 10 14-04
-12 54 3458
-57 6 40*48
— 18 12 9-50
+ 10 54 11*38
10-422
a* Capricorni - - -
3-4
20 11 30*327
3 3307
4-7819
10 -888
a Pavonie - - - -
2
20 16 18*232
11-195
p Capricorni - • -
t Delphini - - »
5
20 22 7*618
3-4240
11-647
4
20 27 34*469
2*8654
12*010
a Cygni - - - -
2.1
20 37 24*512
2-0417
+44 51 33*°o
- 9 55 35*59
+ *7 36 33* 8 3
— 17 42 2*56
+ 38 10 10*75
12-717
12-968
< Aquarii - - - -
n
20 41 17*180
3-2498
32 Vulpeculaa - - -
20 49 3 l8 39
**5539
3*37*9
2-6736
2*5482
I35I9
$ Capricorni - - -
4
20 59 18 * 743
21 1 36*238
14 089
61 1 Cygni - - - -
5.6
*7'493
5 Cygni ....
3
21 7 54* 800
+ 29 44 36* 12
*4; 593
a Cepnei - - - -
P Aquarii - - - -
3*
3
« 15 45*735
21 25 20*699
21 27 7*978
21 38 23*459
21 47 41*619
1-4558
3-1605
+62 5 7-96
— 6 5 22*50
15-660
0*Cephei - • - -
3
07946
+ 70 2 3**98
15-716
16 348
• Fegasi - • - -
\:l
2-9481
+ 9 20 4*04
i6Pegasi - - • .
2-7274
+ 25 22 13*07
- S3 3368
16-796
a Aquarii - - - -
3
21 59 43 # ^5
3*079*
17*335
a Gruis - • - -
2
22 47*367
3* 8066
-47 3» 54* 16
— 8 22 13*79
17-245
6 Aquarii - - - -
45
22 10 36*320
22 15 33*612
3-1687
17-783
18*029
7 Aquarii - - - -
43
3*0997
— I 58 52-67
•9 Aquarii - - - -
4-3
22 29 17*459
- 43 31*24
i8*44S
5 Pegasi - - - -
3-4
22 35 34*5*0
2-9866
+ 10 12 56*44
18-710
X Aquarii - - - -
4
22 46 27-339
3-1271
— 8 12 25-32
19*061
aPis.Aua^Famalhaui)
1.2
22 51 7*584
3*3*5o
— 30 14 51-20
'8*975
a Pegasi (Markab) -
2
22 58 52*961
23 11 2 '808
2-9839
3 • 1063
+ 14 34 14*58
+ 2 38 14*63
+ 36 34*46
19325
y Piscium - - - .
4
19-589
19*643
ac Piscium - - - -
5-4
23 20 52*060
23 33 52854
23 34 30*765
3-0750
1 Piscium - - - .
4-5
3-0841
+ 4 50 1212
+ 76 58 25*08
»9*474
20*080
7 Cephei - - - -
3-4
2-4114
ft Sculptoris - . -
4-5
23 42 46*643
23 53 15-098
3-1364
-28 46 57*53
+ 6 12 35-60
19-897
w Piscium- - - -
4
+ 3*0781
+ »9*9 I 5
Digitized by
Got
o
294 APPARENT PLACES OF STARS, 1882.
BESSEL'S
FORMULAE OF REDUCTION.
i.— Adopting the Notation of the British Association Catalogue and the Coefficients
of Professor Peters (Numerus Constans Nutationis, p. 75).
A = —20-4451 cos « cos
B= — 20*4451 sin Q
C = f— 0*03519 sin 2© —0*34243 sin S3 +0*00410 sin 2 Q— 0*00405 sins ([
* w *
D = —0*5507^503 a O —9*2237008 8 +0*0895 cos 2 8—0*0885 cos 2 C
a = cos a sec ft
b = sin a sec ft
c = 46*0857 + 20*0536 sin a tan ft
rf = cos a tan ft
a' = tan » cos & — sin a sin ft
V = cos a sin ft
Cf S 20'0536 006 A
<f = — sin a
A c = the annual proper motion in Right Ascension, in arc.
A c' = the annual proper motion in Declination.
Where t denotes the time reckoned from the moment when the Sun's mean
d
longitude was 280 (Jan. o— '046) and expressed in fractional parts of a tropical
year, © the Sun's and <[ the Moon's true longitude, Q the mean longitude of the
Moon's node, and * the obliquity of the Ecliptic, each for the time t : a the mean
Right Ascension, in arc, and ft the mean Declination for the beginning of the year*
Then, for the time represented by t,
Apparent R.A., in arc, = a + A a + B & + Cc + Dif + tLc.
Apparent Dec - - - = ft + Aa'+ Bb'+ (V+ Dcf + tic*.
2.— Using the same Notation and Coefficients, and assuming
46-08570=/ B—hcosH
20-0536 C = g cos G A = A sin H
D = g sin G A tan » = %
Apparent R.A., in are, = a + / + t A c
+ ^sin (G + *) tan ft + h sin {H + «) sec ft
Apparent Dec, - - • = ft + » cos ft + t A c*
+ g cos (G + *) + h cos (2jT + a) sin ft
Digitized by. VjOCK
APPARENT PLACES OF STARS, 1882. 295
Mean
BeSSBL'S DAT IflJMBBBS.
Aim's D at Numbers. .
Mid-
night
Log. A.
Log.B.
Log. a
Log.D.
Log.B.
Log.*
Log.0.
Log.H.
U
Jan. 1
-0*5749
4-1-3017
+9*5aai
+ 0*6037
1*32721
1-65350
0-18547
1*46263
57*336
2
•6110
•3000
*5a66
•6037
•32049
•65878
-18645
'46263
57-730
3
'6443
-298a
*53«o
•6036
•31369
•65198
•1874a
•46262
58-135
4
•6751
•2963
•5353
•6035
•30680
•6511a
•18838
•46260
58-546
5
•7036
•294a
•5396
•6033
•29985
•65019
•18933
•46257
58-965
6
-0-7303
4-1*2920
4-9 # 5438
+0*6030
1*29281
1 '64922
o- 190a 7
i'46a53
59-388
7
'7553
-2896
•5480
•6027
•28571
'64816
-191a!
•46248
59*822
8
•7789
-a87i
•5521
•6023
•27852
'64706
•19215
•46243
60*257
9
-8010
•2844
•5561
•6018
•27126
•64590
-19308
•46237
60*697
fo
•8220
•2815
•5601
•6013
•26393
•64466
•19400
•46230
61-147
fi
—0*8419
4-1*2785
+9-5640
+0*6007
1-15651
« -04335
o* 19491
1*46222
61 • 603
it
•8608
•*754
•5678
•6001
•24903
•64200
•19581
•46213
62 * 064
13
•8787
•2721
•5716
•5994
•24146
•64056
• 19670
•46204
62*532
«4
•8958
•2686
'5753
•5987
•2338a
•63909
'19759
•46194
63*003
»5
'912a
•2649
'5790
•5979
•22612
•63753
•19847
•46183
63*480
16
—0-9878
+ 1-2611
+9*5826
+0*5971
1*21833
1-63593
0-19933
1*46171
63*962
17
•94*7
* ^571
-5861
•5962
•21048
'63424
'20019
•46159
64-450
18
•9570
•2529
•5896
•595*
•20257
'63250
•20104
•46146
64-940
»9
•9707
♦2486
•5930
•5943
•19459
• 63069
-20188
•46133
65H37
so
•9838
•M4I
'59 6 4
•5933
•18654
•62881
•20271
•46120
65-939
SI
-0*9965
4-1**394
+9-5997
+0*5922
1*17844
1*62687
0-20353
1*46106
66*444
S2
1*0086
•*345
•6030
•5911
•17026
•62486
•20434
•46091
66-952
»3
•0203
•aao4
•606a
•5900
•16203
•62281
•20515
•46075
67*462
*4
•0315
-aa4i
•6093
•5888
•'5375
•62068
•20595
•46059
67-976
»5
•0423
•a 186
-61S4
•5877
'H54*
•61849
•20673
•46044
68*492
s6
-1-0527
+ 1-2129
+9-6154
+0-5865
1-13704
1*61624
0*20751
1*46028
69*010
•7
•0627
•ao7o
•6184
•585a
•12859
•61390
•20828
-46012
69^35
s8
•0724
•aoo8
•6213
•5840
•12011
•61151
•20903
•45995
70-063
•9
•0817
•1945
-6242
•5827
•11159
-60905
•20977
•45978
70-591
30
•0907
•1879
•6S70
•5814
•1030a
•60653
•21050
•4596i
71-121
V
-1-0994
+ i*i8ii
+9-6298
+0*5801
1-09443
1*60393
0*21123
''45943
71*653
Feb. 1
•1077
•1740
•6326
•5788
•08583
•60128
•21195
•459*6
72*187
1
•1158
•1667
•6353
•5774
•07719
•59856
'21266
•45909
72-721
S
•1236
•1591
•6379
•5761
* 0685a
•59576
•21336
•45891
73**57
4
•1311
•1513
•6405
•5748
-0598a
•59*9*
•S1405
•45874
73*794
5
-1-1383
+ 1-1431
.+9*6430
+ 0-5734
1*05111
1-58999
0-21473
»'45857
74*333
6
# «453
•'347
•6455
•5721
'04242
•58700
•21540
•45839
74-872
1
•1521
•xs6o
•6479
•5708
•03371
•58395
•21607
•45821
75*4"
8
•1586
•1x70
•6503
'5*94
-0250a
•58081
•2167a
•45804
75*951
9
•1649
•1076
•6527
•5681
•01633
•5776a
•21735
•45787
76*490
10
-1-1709
+ 1-0979
+9-6550
+ 0*5668
1*00766
1-57436
0*21798
1-45770
77-030
ti
•1767
•0878
•6573
•50*55
o*999oa
•5710a
• a i860
•45754
77-569
is
'1824
•0774
•6595
'5*43
•99041
•56761
*ai9ai
•45738
78-108
»3
•1878
•0666
•6617
•5630
'98186
•56414
'21982
•457"
78-645
«4
•1930
•0553
•6639
•5618
•97336
•56057
'22042
•45706
79-181
»5
— 1*1980
+ 1*0436
+9-6660
+ 0*5606
0*96490
1-55697
0*22100
1-45691
79*715
Digitized by VjOOQ IC
z 9 6 APPARENT PLACES OF STARS, 1882.
Meftn
Mid- *
night.
Bessel'b Day Numbers.
Airy's Day Numbers.
Log. A
Log.B.
Log.C.
Log. D.
Log. &
Log.F.
Log. a.
Log.H.
L.
Feb.i6
— 1*2028
+ 1*0315
+ 9* 6681
+ 0-5595
0*95652
r5533o
0*22159
1*45676
80*240.
17
•2075
•0189
•6701
•5584
•94822
•5495*5
'222x7
•45662
80-778
18
•2119
1*0058
•6721
•5573
* 94002
•5457*
•22273
•45649
81*306
19
'2162
0*9921
•6741
•5562
•93197
•54*83
•22329
•45635
81*832
ao
•2203
•9779
•6761
•555*
•92397
•53786
•22384
•45622
82*357
11
— 1*2242
+ 0*9630
+ 9*6780
+ 0-5543
0*91609
1*5338*
0*22437
1*45611
82-878
22
'2280
# 9475
•6798
•5534
'90838
•52971
•22491
•45600
83*397
*3
•2315
•9313
•6817
•55*5
•90080
•5*55i
-**544
'45589
83*913
*4
•*349
•9H3
•6835
•5517
•8933*
•52126
•22596
•45579
84425
*5
'2382
•8965
•6853
•5509
* 88610
•51692
•22648
•45569
84*934
26
-1-2413
+ 0-8778
+ 9*6871
+ 0*5502
0*87910
1-51252
0*22699
i-4556o
85'438
27
•*443
•8582
•6888
'5496
'87221
•50805
•22748
'45553
85*938
28
•2471
•8375
•6905
•5490
•86558
'50349
•22798
•45546
86*434
Mar. 1
•2497
•8156
'6922
•5485
•85914
•49886
•22847
•45540
86-926
2
'2522
'79*4
•6939
•5481
'85297
•49416
•22895
'45534
87*4i3
3
-1 -2545
+ 0*7678
+ 9*6955
+ 0-5477
0*84708
1*48939
0*22942
1 '455*9
87-896
% 4
•2567
•7416
'6972
•5474
•84136
•48453
•22989
•455*5
88*376
5
•2588
•7136
•6988
•547*
•83601
•47960
•23037
•455*3
88-846
6
'2607
•6836
•7004
•5470
•83091
•47459
'23084
"455*0
89'3i3
7
'2625
'6512
•7019
•5469
•82607
•46952
•23130
'45519
89*775
8
— 1*2641
+ 0-6160
+ 9*7035
+ 0*5469
0*82158
1-4-5434
0*23x77
i'455i9
90*230
9
-2656
•577*
•7050
'547©
•81743
•459io
•23223
•45519
90*680
10
'2669
"5354
•7065
•5471
•81358
•45379
•23269
•455*i
91*122
11
•2681
•4884
•7080
*5473
•81010
•44838
•233x4
'455*4
91*561
12
•2692
•4357
•7095
•5476
•80706
•44290
•23359
•455*8
9i*99o
13
— 1 '2702
+ 0*3755
+ 9*7110
+ 0*5480
0*80428
1-43734
0-23403
*-45533
92*4x5
14
'2710
•3056
•7125
•5484
'80182
•43"7o
•*3447
•45538
92*834
*5
•2717
• 2220
•7140
•5490
•79982
•4*597
•23491
•45545
93**4$
16
•2722
0*1183
'7154
•5496
•79817
•42017
•*3535
•45553
93*649
17
•2726
9*9817
'7169
•5503
'79692
•41428
•*3579
•45561
94*046
18
— 1*2729
+ 9'78i3
+ 9*7183
+ 0*5510
0*79609
1*40831
0*23623
1*45571
94*435
19
•2731
+ 9' 3979
•7197
•5519
•79560
'40226
•23666
•45582
94816
20
•2731
—9*0178
•7212
•5528
"79553
'39612
•23709
•45593
95*!9!
21
•2730
•661 1
•7226
•5538
•79581
•38990
•23753
•45605
95*557
22
•2728
9*9095
•7240
'5549
•79650
•38361
•23796
•456i8
95*917
*3
-1*2724
-0*0663
+ 9*7*54
+ 0*5560
0*79761
1*37722
0*23840
I-45633
96*266
*4
•2719
•1812
•7268
•5573
•79906
•37074
•23883
•45648
96*609
*5
•2713
•2718
'7282
•5586
* 80092
•36419
•23926
•45664
96'943
26
'2706
# 3465
•7296
•5600
•80314
•35753
•23970
•45682
97*268
27
•2697
•4101
•73"
•5614
•80570
•35081
•24014
•45701
97*584
28
-1*2687
-0*4654
+ 9'73*5
+ 0*5629
o- 80868
1-34399
0*24058
1*457*1
97'89i
29
•2675
*5H4
"7339
•5645
•81198
•33709
•24102
•45741
98*190
30
• 2662
•558*
•7353
•5662
•81558
•33010
•24147
•45762
98-479
. 3i
•2648
•5978
•7368
•5679
•81954
•32302
•241 91
'45784
98-759
Apr. 1
•2633
•6340
•7382
•5697
•82380
•31585
•24235
•45807
99*031
2
— 1*2616
-0*6673
+ 9*7396
+ 0*5715
0*82840
1*30860
0*24281
1-4583*
99-293
Digitized by
Google
APPARENT PLACES OF STARS, 1882. 29
Mean
Mid-
night
' Bessel's Day Numbers,
Amy's Day Numbers.
Log. A.
Log.B.
Log.C.
Log.D.
Log.B.
Log.F.
Log. G.
Log.tt
L.
Apr, 3
-1-2598
-0*6981
+ 9*7411
+ 0*5734
0-83324
1*30126
0*24326
1-45856
99'546
4
•2579
•7267
*74*5
•5754
•83841
•29382
•24371
•4588i
99-792
5
•2558
•7534
•7440
"5774
•84379
-28630
•24417
•45907
100*028
6
•2536
•7784
"7454
•5794
•84948
•27868
-84464
•45934
100*251
7
•2512
'8019
•7469
•5815
•85540
•27098
•24511
•45962
100*466
8
-* 1-2487
—0*8241
+ 9*7484
+ 0*5837
0-86153
1-26318
0-24559
1-45991
100*671
9
'2461
•8450
•7499
•5*59
•86790
•25530
•24606
-46021
100-865
10
•S433
•8649
•75H
•5882
•87448
•24732
•24653
•46051
101*052
11
•S404
•8838
•75S8
•5905
-88127
•S39S5
'24701
•46083
101*226
12
•S373
•9017
•7543
•5928
-88818
•23109
•24750
•4«5"5
101*392
13
-1-2341
—0*9189
+ 9*7559
+ 0*5952
0-89531
1*22283
CS4799
1-46147
101-552
14
•2307
'935*
•7575
•5976
'90255
•21448
* 24848
•46179
101-695
IS
'2272
•9508
•759o
•6000
-90998
•20605
•24898
•46212
101*830
16
•2235
•9657
•7606
-6025
•91751
•19753
•*4949
•46245
101*956
*7
•2197
'9801
•7622
•6049
•92516
•18890
• 25000
•46280
102*071
18
-1*2157
-0-9938
+ 9*7638
+ 0*6074
0-93288
1 -18020
0*25052
1*46315
102*177
*9
•2115
1-0070
•7654
•6100
•94077
•17140
•S5105
•46350
102*277
to
'2072
•0196
•7670
•6125
•94871
•16250
•25158
•46385
102*361
SI
•2027
•0318
•7686
•6151
•95670
•15354
•25212
•464*1
102*430
22
'1981
•043S
•770s
•6177
•96480
•14448
•25266
•46458
102-493
*3
-1 -193*
-1*0548
+ 9*7719
+ 0*6203
0*97294
1-13532
0-25320
1-46495
102-547
*4
•1882
•0656
•773$
•6229
•98114
* 12610
**5375
•4653*
102*590
•5
•1830
•0761
•7752
•6255
•98936
•1 1678
•*543i
•46570
102*623
26
•1776
•0862
•7769
'6281
0-99765
•10738
•*5487
•46608
102*644
*7
•1720
•0959
•7786
•6307
1-00595
•09788
•S5544
* 46646
102 655
28
— 1*1663
-i- 1053
+ 9*7804
+0*6333
1*01427
1*08832
0*25601
1*46684
102*652
29
•1603
•1144
•7821
•6359
• 02259
•07871
•25659
-46722
102*645
30
•1542
•1231
•7838
•6385
• 03092
• 06903
•25718
-46760
102*630
May 1
•1478
•1316
•7856
'6411
•03925
•05922
•S5777
•46799
102 '601
2
•1412
•1398
•7874
•6436
•04758
•04934
•25836
•46838
102*563
3
-1-1344
-1*1477
+ 9*7892
+ 0*6462
1-05591
1-03942
0*25896
1-46877
102*511
4
•1273
1553
•7910
•6488
•06423
•02946
•25958
•46915
102*451
5
•1200
■1627
•7928
•6513
•07151
-01942
'26019
•46953
102*383
6
•1125
•1698
•7946
•6539
•08077
1*00930
•26081
•46991
102 * 302
7
•1047
•1767
•7964
•6564
• 08902
0*99913
•S6145
•47030
102-211
8
— 1*0966
-1*1833
+ 9*7983
+ 0*6589
1-09723
0-98892
0*26208
1*47069
102-109
9
•0882
•1897
•8001
•6613
•10541
•97870
•26272
•47107
101*998
10
•0796
•1959
•8020
'6638
"354
•96842
-•86337
•47145
101-882
11
•0707
'2019
•8039
•6662
•12163
•95899
•26402
•47183
101*751
is
•0615
•2077
-8058
•6686
•12966
'94775
•26468
•47220
101*606
13
-10519
-1*2133
+9-8077
+ 0*6709
1*13767
0-93737
0*26534
1*47*57
101 454
14
•0420
•S187
•8096
•6733
•145*3
-92701
-26601
47*94
101*297
»5
•0318
• 2239
•8115
•6756
•15354
•91661
•26669
•47331
101*123
16
•0212
•2290
•8134
•6778
-16140
•90623
•26736
•47367
100944
*7
1*0102
•2338
•8154
'6801
•16918
•89586
•26804
•47403
100-756
18
-0*9987
-i*s 3 85
+ 9*8173
+ 0*6823
1*17694
o- 88557
0*26873
1-47438
ioo-555
Digitized by
Google
2 9 8 APPARENT PLACES OF STARS, 1882.
Mean
Mid-
night
BeSSBL'B DAY NtTHBERS.
# Amy's Dat Numbers.
Log. A.
lo*B.
Log. a
Log-D.
Log.B.
Log. F. Log. Q.
Log.H.
L.
May 19
—0*9869
-1*2430
+98193
+ 0*6844
1*18462
0*87523
0*26942
1*47473
xoo-347
90
•9746
•*473
'8213
•6866
•19923
•86499
•270x2
•47508
IOO'X97
91
•9618
•2514
•8232
-6887
• 19980
•85479
-27082
•4754*
99-901
99
•94*5
•*S54
•8252
•6907
-20729
'84466
•27153
•47576
99-664
»3
'9347
•*593
'8272
•6927
•91472
•83467
•27223
•47609
99-418
«4
—0*9903
— 1*2630
+9*8292
+ 0-6947
1*22209
0*82472
0-27295
1-47641
99-163
»5
•9053
•2665
'8319
•6966
•22939
•81490
•27367
•47673
98 ' 899
96
•8897
'2699
•833*
•6985
•23663
•80516
•27438
•47705
98 - 627
97
•8733
•9731
•8359
•7003
•24379
•7956o
•275x0
•47736
98-345
98
•8562
'9762
•8372
•7021
•25089
•78618
•27584
•47765
98-057
*9
—0*8382
-1*2791
+9-8392
+0-7039
i # »5794
0*77699
0*27658
1*47795
97-755
30
•8194
'2819
•8412
•7056
•96488
•76797
•2773*
•478*4
97-448
3i
•7996
•2846
•8432
•7072
•27177
•75921
•27806
•47851
97-132
Jane 1
•7787
'2871
•845a
•7088
•27859
• 75066
•27880
•47878
96-808
9
•7566
•9895
•8472
•7104
# *8535
•74*33
•*7954
•47904
96*476
3
-0-733*
-1-2917
+9-8493
+ 0*7119
1*29202
0*73439
0*28029
i # 4793o
96-135
4
•7084
•2938
•8513
•7133
'29864
•72656
•28103
•47955
95-786
5
•6819
•2958
•8533
•7147
•30519
•7x917
•28x78
•47979
95 '4*9
6
•6536
-2977
'8553
•7161
•31166
•71206
•28253
•48003
95-066
7
•6232
•2994
•8573
•7174
'31806
•70535
* 28329
•48026
94-692
8
-0*5904
— 1*3010
+9-8593
+ 0*7187
1*32440
0*69897
0*28405
1-48048
943"
9
•5548
•3025
•8613
•7199
•33066
•69302
•28480
•48068
93-926
10
•5159
•3038
•8633
•7211
•33*586
•68753
•28556
•48088
93*5*9
11
•4730
•3051
•8653
•7229
•34298
•68249
•28639
•48x07
93-128
19
•4*53
•3062
•8673
•7939
•34903
•6:7779
•28708
•48x26
92-716
*J
—0*3716
— 1*3072
+9*8693
+0*7242
1-35502
0-67357
0*28784
1-48144
92-299
14
•3101 *
•3080
•8713
•7252
•36093
•66987
•28860
•48161
91*876
*5
•9383
•3087
•8733
•7261
•36678
•66670
•28935
•48176
91-447
16
•1521
•3093
•8752
•7270
"37*55
•66398
'2901 1
•48x91
91*013
«7
0*0444
•3098
•8772
•7978
•37826
•66x81
•29087
•48205
90-567
18
—9*9006
-I # 3t09
+9*8799
+0*7285
1-38389
o* 66020
0*29x62
1-48219
90-117
19
•6842
•3105
-88n
•7292
•38946
•65906
•29238
•48231
89-660
90
—9*2326
•3106
•8831
•7*99
39497
•65849
•29314
•48242
89-197
91
+ 9*1504
•3106
•8850
•7305
•40039
•65849
•^9389
•48253
88*729
99
•6568
•3105
•8870
•7310
•40575
•65906
•99465
•48263
88-253
»3
+9-8841
—1*3102
+9*8889
+ 0*7315
1*41104
0*66011
0*29540
1*48272
87-773
*4
0*0324
•3099
'8908
•7320
* 4x626
•66x72
•296x5
•48280
87-286
»5
•1427
•3094
•8927
•7324
•42142
•66380
•29689
•48287
86-795
26
•2304
•3088
•8946
•7327
•42651
•66649
•29763
•48293
86-298
•7
•3<>33
•3081
•8964
•7330
•43153
•66960
•29838
•48299
85-795
98
+0*3656
-1*3079
+98983
+ o*7333
i'43649
0*67319
0*29912
1-48304
85*285
*9
•4«99
•3063
•9002
•7335
•44137
•67731
•29986
•48308
84-773
30
•4681
•3052
'9020
•7336
•44620
•68x92
•30059
•48310
84*257
July 1
•5113
•3040
•9038
•7337
•45095
•68692
•30x32
•48312
83-73S
9
•5506
•3027
•9056
•7338
•45565
•69238
•30205
•48313
83*208
3
+ 0-5864
—1*3012
+ 9*9074
+ 0-7338
1*46028
0*69827
0*30277
1*48313
82*677
Digitized by
Got
o
APPARENT PLACES OF STARS, 1882. 299
Mean
Mid-
night.
Bjb8sbl'8 Day Numbers.
Ajby's Day Nuhbbbs.
Log. A.
Log.B.
Log. C.
Log. D.
Log.B.
Log. P.
Log.G.
Log.H.
L.
July 4
+ 0*6194
— 1*2996
+ 9*9092
+0/7338
1*46484
0*70458
0*30349
1-48313
82*140
5
•6500
•2979
-9110
•7337
•46933
•71122
•30421
•48312
81*600
6
•6785
-2961
'9128
•733«
'47377
•71825
•30492
•48310
81-055
7
•7051
•2941
'9*45
# 7335
•47814
•72558
•30563
•48307
80*508
8
"7300
'2920
"9162
'7333
•48*45
•733»o
•30633
•48303
79*957
9
+ 0*7535
-1-2898
+ 9*9180
+0*7330
1*48669
0-74115
0*30703
1*48299
79-401
10
•7756
•2874
•9197
•7328
•49088
•74943
•30773
•48*94
78-839
11
•7966
•2849
•9*14
'73*5
•49500
•75793
'30842
•48288
78*276
12
'8165
-2823
•9230
# 73«
•49906
•76671
•30910
•48282
77-709
*3
•»354 t
•*795
"9*46
•7317
•50305
•77568
•30979
•48*75
77-138
14
+ 0-8534
— 1*2766
+ 9*9263
+ 0*7312
1*50699
0-78483
0-31047
1-48267
76*564
*5
•8706
•2736
•9279
•7308
-51086
•794H
•3i"3
•48259
75-990
16
•8870
•2704
•9*95
'7303
•5H67
•80359
•3"79
•48250
75*41*
17
•9027
•2671
•9311
*7*97
•51*42
•81325
•3"45
•48240
74-831
18
•9178
'2636
'93*7
'7*9*
•52212
•82302
•31310
•48230
74-246
*9
+ 0*9322
— 1 * 2600
+9' 934*
+©•7286
*>5*375
0-83283
0*31375
1*48220
73*659
10
'9460
•2562
•9358
•7279
•52932
• 84280
•31439
•48209
73*071
SI
'9593
* -2522
•9373
•7*73
•53*83
•85*85
•31503
•48197
72-480
22
•9721
-2481
•9388
*7a66
•53628
•86297
•31566
•48185
71-886
*3
'9«44
•*439
•9403
•7259
•53967
•87317
•31628
'48172
71*292
*4
+0-9963
-1-2394
+ 9-9417
+0*7451
1-54300
0*88338
0*31690
1*48160
70*695
*5
1-0077
•2348
"943*
'7*43
•54629
•89361
•3175*
•48146
70*096
s6
•0187
•2301
.9446
•7235
•54949
•90389
•31813
•48132
69-497
*7
•0293
'2251
.9460
•7227
•55a65
•91418
•31872
'481 1 8
68*897
28
•0396
•aaoo
•9474
•7219
55575
•9*449
•31931
•48104
68*295
29
+ 1-0495
-1*2147
+ 9-9488
+ 0*7211
1*55878
0*93479
0*31989
1*48089
67*695
30
•0590
'2092
•9502
•7202
•56177
•94507
•3*047
•48074
67*089
3i
-0683
•2035
•9$i5
•7193
•56469
'95533
•32104
•48058
66*487
Aug. 1
•077a
•1976
•9528
•7184
•56756
•96557
•32161
•48042
65 • 880
2
-0858
•1915
'9541
*7i75
•57<>37
•97577
•32217
•48026
65-275
3
+ 1*0942
—1*1852
+ 9*9554
+0*7166
1-573"
0-98594
0-32273
1 • 48010
64-668
4
'1023
•1787
•9567
•7157
•57582
0*99607
'32328
'47994
64*060
5
•IIOI
•1719
•9580
•7147
•57845
1 •00616
•32382
•47979
63H54
6
•1176
•1649
•9592
•7138
•58105
•01620
•3*435
•47963
62-844
7
•"49
•X577
•9604
# 7«9
•58357
'02617
•3*488
'47947
62*238
8
+ 1*1320
—1*1502
+9*9616
+0-7119
1-58604
1*03607
o-3*54o
i*4793i
61*632
9
•1389
•1425
•9628
•7110
•58848
•04594
•3*59*
•47915
61*022
to
•H55
•1345
•9640
•7100
•59083
•05572
•32643
•47899
60*416
11
•1519
•1263
•9651
•7091
•593H
•06544
•32693
•47882
59'8ii
12
•1581
•1177
•9663
•7081
59539
•07511
•3*743
•47866
59*206
13
+ 1*1641
— 1 • 1088
+ 9*9674
+0*7072
« "59759
1*08469
0*32792
1-47850
58*601
14
•1698
•0996
•9685
•7063
•59973
* 0941 6
•32840
•47835
57*997
i*
•1754
-0901
'9696
•7054
•60181
* 10360
•32888
•47820
57' 394
16
•1808
•0803
•9707
•7045
•60386
•1 1294
•3*935
•47805
56-792
17
•1861
•0701
•9718
•7036
-60582
•12220
'32981
•47789
56*194
.0
. _ .
_.~-_-
1 _. .^.0
.
. . ^~__..
. . . _._f
_.^--_
- . *___.
_.- . „_*
Digitized by
Google
3 oo APPARENT PLACES OF STARS, 1882
Mean
Mid-
night.
Bssbel's Day Numbers.
Airy'8 Day Numbers.
Log. A.
Log.B.
Log.C.
Log.D.
Log.B.
Log.F.
Log.G.
Log.H.
L.
Aug. 19
+ 1-1959
-1*0485
+ 9*9738
+ 0*7018
1*60961
I-I4045
0-33072
1-47760
55-000
20
•2006
•0371
•9749
•7010
* 6x 142
•14946
•33»7
•47746
54*403
21
'2052
•0253
'97S9
•7002
•61319
•15836
•33161
•4773*
53*809
22
•2095
•0x30
'97*58
•6994
'61489
•16720
•33*05
•47719
S3'*i7
*3
'2137
1*0003
•9778
•6986
•6x655
•'759*
•33*48
•477o6
52-628
»4
+ 1*2177
—0*9870
+ 9*9788
+ 0*6979
1*6x813
1 • 18458
0*33291
1-47694
52*042
*5
a 22l6
•973i
•9797
•6972
•61969
•19314
'33333
•47682
51-456
26
•2253
•9587
•9807
•6965
•62117
•20x61
•33374
•47671
50*875
*7
•2288
•9436
•9816
•6958
•62259
•20999
•33415
•47660
50296
28
•2322
•9279
•9825
•6952
•62398
'21828
•33455
•47650
49'7i8
*9
+ i-*355
-0*9x14
+ 9-9834
+ 0*6946
1*62530
i' 22649
0-33495
1-47640
49*145
30
•2386
•8941
•9843
•694X
•62658
•23460
"33S35
•47631
48-573
3i
'24x6
•8760
•9852
■6935
•62780
•24263
'33574
•47623
48*004
Sept. 1
•*444
•8570
'9860
•6930
'62895
•25056
•33612
•47615
47-440
2
•2471
•8369
•9869
'6926
•63007
■2584X
•33650
•47607
46*878
3
+ 1-2497
—0*8158
+ 9*9877
+ 0*6922
i'63ix3
1*26617
0*33688
1*47600
46*320
4
'2521
•7934
•9885
•69x9
•63213
•27384
•337*5
•47595
45-763
5
•*544
•7696
•9894
•6916
•63308
•28142
•33762
•47590
45*2X2
6
•2565
•7443
•9902
•6913
'63398
•28891
•33799
•47586
44*662
7
•2585
*7«73
•9910
•6911
•63483
•29632
•33835
•47582
44' "9
8
+ 1*2604
—0*6884
+ 9*9918
+ 0*6909
x -63561
1-30364
0-33871
1*47579
43*579
9
•2621
•6572
•9926
•6908
•63*36
•31087
•339o6
'47577
43*041
10
•2637
•6235
•9934
•6907
•63704
•31800
•33941
•47576
42*510
11
•2652
•5868
•994i
•6907
•63766
•32506
•33976
'47576
41*983
12
•2666
•5465
9949
'6908
•63824
•33203
'340X1
•47577
41-459
13
+ 1*2678
—0*5020
+ 9*9957
+ 0*6909
1-63877
1*33892
0*34046
1*47578
40-937
»4
'2689
•4522
•9964
•69x0
•63924
•3457*
•34080
•47580
40-423
"S
• 2699
*39S7
•9972
'69x2
•63965
•35*44
•34"4
'47583
39*913
16
•2707
•3306
•9979
•69x4
•64001
•35906
•34148
•47587
39-4o6
17
•2714
•2538
•9987
•6917
•6403;
•36561
•34182
•4759*
38*908
18
+ 1*2720
— 0*1602
+9*9994
+ 0*6921
1*64056
1 • 37206
0*342x6
1 '47598
38-415
19
•2725
0*0406
0*OO02
•6925
* 64076
•37844
'34*49
•47605
37*9*4
20
•2729
9*874*5
*0009
•6930
'64091
•3847*
•34282
•47613
37*441
21
•2731
9*6022
*OOX6
•6935
•64x00
•39094
•34315
•47622
36*960
22
•2731
-8*7046
*0024
•6941
'64x04
••39706
•34349
•47631
36-486
*3
+ 1*2731
+9*4756
+ 0*003X
+ 0*6947
1*64102
1*40310
0-34382
1*47641
36*018
«4
'2729
•8119
•OO38
'6954
•64094
•40906
•34415
•47652
35558
«S
•2726
9 . 999 a
•OO45
'6961
'64081
*4H94
"34449
•47665
35'o99
26
•2722
0*1296
•OO53
•6969
'64063
•4*074
•3448*
•47677
34*650
*7
•27x6
•2297
•O060
•6978
•64039
•42647
•34515
•47691
34*205
28
+ 1*2709
+ o*yno
+ 0*0067
+ 0*6987
1 * 64009
i*43*«
0-34549
i-477o6
33-767
29
•2701
•3793
•OO75
•6997
•63975
•43767
•34583
•47722
33*334
30
'2692
•4382
•OO82
•7007
•6393S
'44317
•34617
•47740
32*904
Oct 1
-2681
•4901
•OO89
•70x7
•63889
•44856
•34650
•47759
32*486
2
'2669
•5363
•OO97
•7028
•63836
•45389
•34684
•47777
32-074
3
+ 1*2656
+ 0*5779
+ 0'OX04
+ 0*7040
x* 63781
1 '45915
0*34718
1-47796
31665
Digitized by
Googk
APPARENT PLACES OF STARS, 1882. 301
11 Mean
Bessel'b Dat Numbers.
Aiby's Day Numbers.
1 1 ~KMi*^
night.
Log. A.
Log.B.
Log. a
Log. D.
Log.B.
Log.F.
Log.G.
Log.H.
L.
llOct. 4
+ 1*2641
+0-6159
+ 0*0111
+ 0-7052
x '63718
i # 4°433
0*34751
1*478x6
31*269
ll 5
•2625
-6506
•0119
•7065
•63650
•46943
•34785
•47837
30-876'
It 6
•2607
-6827
-0x26
•7078
•63577
•47446
•34819
•47859
30-489:
11 7
•2588
•7125
"0*34
•7092
•63497
•4794*
•34854
•47882
30*110
II 8
•2568
•74<>3
•0141
•7105
•634x1
•48429
•34889
•47906
29-739'
It 9
+ 1-2547
+ 0*7663
+ 0-0149
+ 0-7119
1-63322
1*48908
0*34924
*'4793*
*9'373,
II 10
•2524
•7907
•0156
•7*34
•63224
•49382
•34960
•47957
29*016
11 SI
'*499
•8137
-0164
•7150
•63x23
•49848
•34996
•47983
28*664'
1 la
'2473
•8354
•0172
•7165
•630x5
•50305
•3503*
•48010
28*322!
n
•2446
•8560
*oi 80
•7181
'62902
•50757
•35069
•48037
*7'985!
14
+ i'a4i7
+ 0-8756
+ 0*0x88
+ 0-7198
1-62783
1*51200
0*35106
1-48065
27-657
*5
•2386
■8942
'0196
•7214
•62658
•51636
•35*43
•48094
27-339
16
•*354
•9119
-0204
•7231
•62527
•52065
•35*8o
•48124
27*026
17
"2321
-9288
•0212
•7248
'62390
•52488
•35**7
•48154
26*723
18
•2285
•9449
•0220
•7266
'62247
•5*903
•35*55
'48x85
26-428
*9
+ 1*2248
+ 0*9604
+ 0*0228
+ 0*7284
1*62100
1*53311
©•35*94
1-48217
26*137
20
"2210
•9752
•0237
•7302
'6x946
'537**
•35353
•48249
25*859
ax
•2170
0-9893
•0245
•7320
'61786
•54*05
•35373
'48281
*5'586 (
22
•2128
1*0030
•0254
•7339
-61620
•54491
'354*3
•483*4
*5 # 3*5
*3
•2084
•0161
'0262
•7358
•61448
•54872
•35453
•48347
25*071
*4
+ 1*2039
+ 1*0286
+ 0*0271
+0-7377
1*61270
«' 55*45
o* 35494
x -48380
24*826
*5
•1992
•0407
-0280
•7396
'61086
•55610
•35536
•484*5
24*586
16
•1943
•0524
•0289
•7415
'60897
•53969
•35578
•48450
*4"358
*7
•1892
•0636
•0298
•7434
* 60702
•56320
•35620
•48485
24*139
18
•1839'
•0744
•0307
•7454
•60499
•56667
•35663
•48521
23*926
29
+ I-I784
+ 1-0849
+ 0-0316
+ 0-7473
1*60292
1*57006
0*35706
*-48557
23-723
30
•1727
•0949
•03*5
'7493
•60078
•57337
•35750
•48593
23-530
% 3i
*l668
•1047
•0334
•7512
•59857
•57663
•35794
•48628
*3*346 (
Nov. 1
•1606
'1x40
•0344
'753*
•59«3i
•5798*
•35839
•48664
23-171
2
•1542
•1231
•0354
•755*
•59398
•58293
•35885
•48700
23*005
3
+ I ' I476
+ 1-1318
+ 0*0363
+ 0-7572
1*59x60
* -58599
0*35931
1*48737
22*846
4
•I408
■1403
•0373
•7591
•38915
'58896
•35977
•48774
22*701
5
•'337
•1484
•0383
•761 1
•58663
'59188
•36024
•48811
22*562
6
'1263
•1563
•0393
•7630
'58406
•59475
• 3607a
•48848
22-429
7
•U87.
•1639
# -0403
•7650
•58141
"59755
•36120
'48885
22-309
8
+ 1*1108
+ 1-1713
+ 0*0413
+ 0*7669
1*57871
1*60027
0*36168
1*48922
22*200
9
•1026
•1784
•0423
•7689
•57595
•60192
•36217
•48958
22*100
zo
•0941
•1853
•0434
•7708
•573*0
•60552
•36267
•48995
22*0X1 j
IX
•0853
•1919
'0444
•7727
•57020
'60806
•363*7
■49031
21*925.
12
•0762
•1983
•0455
•7740*
•56724
•61051
•36368
•49067
21*855
13
+ 1-0668
+ 1-2045
+ 0*0465
+ 0-7764
1*56421
1*61291
0*36419
1*49103
21*792
*4
•0570
'2104
•0476
•7783
•56x12
•615*4
•36471
•49*39
2I-740,
15
•0468
-2162
•0487
•7801
'55795
•61752
•365*3
'49*74
SI a 698 |
16
•0363
•2217
•0498
•7819
•55474
•61973
•36576
•49209
2I-663
17
•o*53
•2270
•0509
•7837
•55*45
'62186
•36629
•49*44
21'640
i
Digitized by
Google
3 o2 APPARENT PLACES OF STARS, 1882.
Mean
Mid-
- night.
Besskl's Day Numbers.
Aim's Dat Numbers.
Log. A.
Log.B.
Log.C:
Log. D.
Log.B.
Lag. F.
Log. G.
Log.H.
L.
N0Y.19
+ 1*0021
+ 1-2371
+ 0-0531
+0*7872
x -54466
1-6*597
0-36737
i'493i3
21-623
20
0*9898
•24x9
•0542
•7889
•541x6
•62792
•36791
•49347
21*630
21
•9770
•2465
•0554
•7906
•53760
'62980
•36846
•4938o
21*648
22
'9636
•2509
•0565
•79*3
•53398
-63164
-36902
•49413
21*670
*3
•9497
•*55i
•0576
•7939
•53028
•63341
•36958
•49445
21*706
•*4
+ 0-935*
+ 1-2592
+ 0*0588
+ 07955
1*52651
1*63509
0*370x4
1*49476
21*756
•5
•9200
•2630
•0600
•7970
•52*67
•63674
•37071
•49507
21-808
26
•9041
•2667
•06x1
•7985
•S1877
•63831
•371*8
•49537
21*874
*7
•«8 7 5
•2703
•0623
•8000
•51479
•63983
•37185
•49567
21-951
28
•8701
'*737
•0635
•8015
•51075
•64127
•37*43
•49597
12-035
29
+ 0*8518
+ 1-2769
+ 0*0647
+0*8029
1*50663
1*64366
0-37301
1*49626
22*131
30
•8326
•2800
-0658
•804a
•5oa44
64399
•37359
•49653
22*236
Dec. 1
'812*3
. '2829
•0670
-8056
-498x8
•645*5
•37418
'49680
22*352
2
•7908
•2857
•0682
•8069
•49385
•64644
•37477
•49706
22'478
3
•7681
-2883
•0694
•8081
•48945
•64758
•37536
•4973*
22*612 •
4
+ 0-7440
+ 1*2907
+0*0706
+0*8093
1-48496
1-64866
o # 37596
1*49757
aa*757
5
•7184
•2930
•0718
'8105
•48041
•64967
•37656
•49781
22*911
6
•6909
•295a
•0731
•81x6
'47579
'65063
•37716
•49804
23-074
7
•66x5
•297a
\ '0743
•8127
•47109
•65151
•37776
* 49826
23-250
8
•6297
•2991
'0755
•8137
•46631
•65*34
•37836
•49847
23-436
9
+ 0-5953
+ 1-3008
+ 0*0767
+ 0-8147
1*46147
x-653ia
0*37897
1*49868
23-631
10
•5577
•3024
•0779
•8x57
•45655
•65379
•37958
•49888
23*832
XI
•5165
•3038
•0791
•8x66
•45*54
•65444
•38019
•49907
24*040
12
•4707
•3051
-0804
•8x75
•44647
•65504
•38080
•499*5
24*262
13
•4194
•3063
•0816
•8183
•4413*
•65554
•38x41
•4994a
24*496
»4
+0*3610
+ 1-3073
+ 0*0828
+ 0*8x90
1*43610
1*65600
0*38202
1*49958
*4'735
IS
•*934
•3082
-0840
•8198
*43o8o
•65641
•38264
•49973
24-984
16
-2131
•3089
•0853
•8205
'4*54*
•65675
•38325
•49988
25-241
17
0*1143
•3095
•0865
•8211
•41998
•65702
•38386
•50001
25*509
18
9*9861
•3x00
•0877
•82x7
•41444
•657*3
•38448
•50013
*5-7*6
19
+ 9*8030
+ 1*3103
+ 0*0889
+0*8222
1-40884
1*65737
0*38509
1*50024
26-073
20
+ 9*4802
•3105
•0901
-8227
'40316
•65746
•38570
•50034
26-367
21
-8*4940
•3106
•0913
•8231
•39740
•65749
•38631
•50043
26*670
22
9*5618
•3105
•0925
•8*35
•39156
•65746
* 38692
•50052
26-980
*3
9*8438
•3103
'©937
•8*39
•38565
•.6573S
•38753
•50060
27*301
*4
—0*0133
+ 1*3099
+ 0*0949
+ 0*8242
1*37965
1*65719
0*38814
1*50066
27*631
*5
'1347
•3094
1 -0961
•8*45
•37358
•65697
•38875
•50072
27*966
26
•2295
-3088
•0973
•8*47
•36743
•65668
•38936
•50077
28*311
*7
•3071
•3080
•0985
•8248
•36120
•65635
•38996
•56080
28*664
28
•37*8
•3071
-0996
•8250
•35489
•65594
•39056
•50083
29*024 I
29
-0-4*97
+ 1*3061
+ 0*1008
+ 0*8251
1 34850
1-65547
0*391x6
1-50085
*9'394
So
'4800
•3049
•1020
•825X
•34204
•65494
•39x76
•50085
29 * 769
3*
•5*48
•3036
•103 1
-8251
•33549
•65434
'39*35
'50085
30*156
3*
-0*5654
+ 1*3021
+ 0*1043
+ 0*8251
1-32887
1*65368
0-39294
1*50085
30-548
Digitized by
Google
APPARENT PLACES OF STARS, 1882. 303
II Qr
5 fob CORRECTING the PLACES of STARS.
rANTEEIES
11
I Mean
1 Midnight.
f
Log$-.
Q
Log h.
H
Log t.
11 Jan. 1
+ 15*34
+0-8914
/
31 2
+ 1-3092
1
348 26
—0*2123
1 *
15-49
0-8947
30 46
1*3000
1-3087
0*2485
1 3
15-65
0-8980
30 31
347 3°
0*2817
4
15-81
0-9012
30 15
1-3084
346 33
345 3°
0*3125
5
15*97
0-9043
30
1-3081
0*3411
6
+ 16-12
+0-9074
29 45
+ 1-3078
344 39
-0*3678
7
16-28
0*9104
29 29
1-3074
343 43
342 46
0*3928
8
S3
0-9154
0*9164
29 14
28 59
1*3070
04163
9
1*3066
34i 49
0*4385
10
16-74
0-9193
28 44
1*3062
340 51
°'4595
11
it
+16-89
17-04
+0*9222
0*9250
28 29
28 14
+ 1-3058
1-3054
339 54
338 57
-0-4793
0-4982
13
17-19
0-9278
28
1-3049
337 59
0*5162
H
i7'34
0-9306
*7 45
1-3045
337 a
0*5333
15
17-49
0*9333
27 30
1-3040
336 4
0*5496
16
+17-63
+0-9360
27 16
+ 1*3035
335 6
—0*5652
3
17-77
0-9386
27 2
1-3030
334 8
0*5801
17-91
18-05
0*9412
26 48
1*3024
333 1°
0*5944
19
0-9437
0-9462
26 34
1*3019
332 12
o*6o8i
20
18-19
26 21
1-3013
33* *3
0*6213
21
+ 18-33
+0*9487
26 7
+ 1-3008
330 15
329 16
328 17
—0*6339
* 6400
22
S:«
0-9511
25 53
1 * 3002
23
0*9535
25 40
1*2996
0-6577
24
SB
0-9558
25 26
1*2990
327 18
0*6689
*S
0*9581
25 13
1-2984
326 19
0*6797
26
+ I9-OI
+0-9604
25
+ 1-2978
325 20
—0*6901
*7
I 9 -IJ
19*20
0*9626
24 48
1*2971
1*2965
324 21
0*7002
28
0*9648
•M 35
323 21
0*7099
29
I 9 '39
0-9670
24 23
1*2959
322 21
0-7192
3°
I9-52
0-9691
24 11
1-2953
321 22
0*7281
3 1
+ I9-6S
+0-9712
23 58
+ 1-2946
320 22
—0*7368
Feb. 1
I9-78
0-9733
23 46
1-2939
319 22
318 21
0*7452
2
I9-90
0-9753
23 35
1-2932
0-7532
3
20' 02
0-9773
23 23
1*2926
317 21
0-7610
4
20*14
0^9792
23 12
1*2919
316 20
0-7685 *
5
+ 20-26
+0*9812
23 1
+ 1*2912
3*5 *9
314 18
-0*7758
6
20-37
0*9831
22 50
1*2906
©•.7828
J
20-49
°^Uo
22 40
1*2899
313 17
0*7895
20*60
0*9868
22 29
1*2881
312 15
0*7960
9
20-72
0*9886
22 19
311 14
0-8023
10
+20-83
+0-9905
22 9
+ 1*2880
310 12
—0*8083
11
20-94
0-9923
21 59
1*2873
309 11
308 9
0*8142
12
21-05
0-9941
21 50
1*2867
0*8198
13
2I'l6
0-9958
21 40
1*2860
307 6
0-8252
1 :*
21-26
t e
0-9975
21 31
AT *4
1*2854
306 4
0*8304
Digitized by
Google
3o 4 APPARENT PLACES OF STARS,
1882.
QUANTITIES vob CORRECTING
the PLACES of STABS.
Mean
Midnight
f
Log^.
G
Log A.
H
Log*.
Feb. 16
ft
+ 2I*46
+ 1-0008
1
21 13
+ 1-2842
r
3°3 59
—0*8403
»7
2I*56
1*0024
21 4
1-2836
302 56
0-8449
18
21*66
1*0040
20 56
1*2830
301 53
0-8494
19
21-76
21*86
1*0056
20 48
1-2824
300 50
0-8536
20
1*0072
20 41
1*2818
299 47
0-8577
21
+21*95
+ 10088
20 34
+1*2812
298 44
— 0*8616
22
22*05
1*0103
1-0118
20 27
1-2807
297 40
0-8654
23
22*15
20 20
1 * 2802
296 36
0*8690
24
22*24
1*0133
1-0148
20 IJ
20
1*2796
295 33
0*8724
*5
2233
1*2791
294 29 N
0-8757
26
+22*42
+ 1*0163
20
+ 1-2786
293 25
—0-8788
0-8817
*i
22*51
1-0177
'9 54
1-2782
292 21
28
22* 50
22*68
1*0191
1948
1*2777
291 17
0-8845
Mar. 1
1-0205
19 43
1*2773
290 12
289 8
0-8871
2
22-77
1*0220
19 37
1-2769
0-8896
3
+22-86
+ 1*0234
1*0248
1*0262
19 32
+ 12765
288 4
—0-8920
4
22-95
19 27
1-2761
286 59
0-8942
0*8962
I
23-04
19 1%
19 18
1-2758
285 55
23*12
1*0276
1-2754
284 50
08981
7
23*20
1*0291
19 H
1-2751
283 45
- 8999
8
+23*28
+ 1-0305
19 10
+1-2748
282 40
—0-9015
9
23-37
1-0319
19 7
1-2745
281 36
0*9030
10
23 '45
1 0333
19 3
1-2743
280 31
0-9044
0-9056
11
23-53
1*0347
3*
1-2741
270 26
278 21
12
23-61
1*0360
1*2739
0-9067
13
+ 23-69
+1*0374
.855
+ 1-2737
277 16
—0-9076
H
23*77
1*0388
18 52
12735
276 11
0*9084
*£
23-85
1*0402
18.50
1*2734
275 6
0*9091
16
23*93
1*0415
18 48
1*2733
274 1
0*9097
17
24*01
1*0428
18 46
1-2732
272 56
0*9101
18
+ 24-09
+ 1*0442
18 45
+ 1-2732
271 51
—0*9104
19
24-17
1-0456
18 43
1-2731
270 46
09105
0*9106
20
24*25
1-0470
1-0483
1 * 0496
18 42
1-2731
260 41
268 36
21
24*33
18 41
1*2732
0*9105
22
24*41
18 40
1*2732
267 31
0-9102
23
+ 24*49
+ 1*0510
18 40
+ 1*2733
266 26
—0-9099
24
H'57
1-0524
18 39
1*2734
265 22
0-9094
0-9088
2 i
24-65
1-0538
Sg
1-2735
264 17
26
*4 '73
24-81
1-0552
1-2737
263 12
* 9080
27
1-0567
18 39
1-2738
262 8
0*9071
28
+24*89
+1-0581
18 39
+ 1*2740
26l 4
—0*9061
29
24-97
1-0595
18 40
1-2742
259 59
258 55
• 9050
30
25-05
1 * 0609
18 40
1*2744
0-9037
. ., 3I
25^3
1*0624
18 41
1-2747
257 51
0*9023
April 1
2.5*22
1-0639
18 41
1-2750
256 47
* 9007
2
+ 25*30
+ 1-0653
18 42
+ 12753
255 43
—0-8990
Digitized by
Google
APPARENT PLACES OF STARS, 1882. 30:
QUANTITIES
\ for CORRECTING
m PLACES of STABS.
Mean
Midnight.
/
Logg.
G
Log A.
H
Logi.
April 3
+2530
25 48
25 <6
25-65
+ 1*0668
i
1843
+1-2756
#
25440
—0*8972
4
i
1*068}
1*0698
18 46
1-2759
1 2763
253 36
*5* 33
0*8953
0*8932
1-0714
18 48
1-2767
251 29
250 26
0*8910
0*8886
7
25-73
1*0729
18 50
1 2771
8
9
+25-82
25-90
+ **°744
1-0760
18 si
18 S3
+ »**775
1-2779
240 23
248 20
— o*886i
0*8835
10
11
33
x "0776
1 -0792
1*0808
\l$
247 18
246 15
0*8807
0*8778
12
26*17
18 58
I 2793
245 13
0*8747
13
+26*27
+ 1-0824
19
+ I-2798
I*280*t
I*28o8
244 11
-0*8715
H
26*36
1*0840
19 2
Hi 9
0*8681
!i
26*45
1-0857
\lt
242 7
0-8646
2655
1*0874
I*28l3
241 5
0-8609
»7
26*65
1*0891
19 8
I'28l9
240 4
08571
18
+ 26*75
26*85
+ 1-0908
19 11
+ 1*2824
230 2
238 1
-0*8531
*9
1*0925
19 13
K283O
0-8490
20
21
26* 95
27*05
1*0942
1-0950
1 0976
19 i<
19 18
1*2836
X*2842
237
236
0-8447
0-8402
22
27*15
19 20
1*2848
*34 59
0*8355
*3
+ 27*25
+ 1*0993
19 23
+ I-2854
233 59
—0*8307
M
27*36
i-ioii
19 25
19 28
1*2860
232 59
0*8257
:i
27*46
x - 1029
1*2866
231 59
08205
£8
1*1047
I * 1065
19 30
1-2872
230 59
0*8151
*7
19 32
1*2878
230
0*8095
28
+27*79
+1-1083
*9 34
19 36
+ X*2885
220 1
228 2
—0*8038
29
27-90
28*02
I*IIOI
I 289I
0-7978
30
IMI20
19 38
I*2897
227 3
0-7016
0*7852
0*7786
May 1
2813
I-II30
1*1158
19 40
I*2904
226 4
' 225 6
2
2825
1942
I'29IO
3
+28*36
+ 1-1177
1944
1946
+ I-29I7
224 7
—0-7718
4
28*48
28*60
1*1196
I-2923
223 9
0-7648
I
1*1215
1948
1*29*9
222 12
0, 7575
28*72
1*1234
19 50
1*2935
221 14
0-7499
7
28*84
11253
19 52
1*2942
220 16
0*7421
8
+28*96
+ 1*1272
19 S3
+ 1*2948
219 19
218 22
-0*7340
9
29*09
1*1291
19 55
1*2954
0*7257
10
29*22
1*1310
19 56
1*2960
217 25
0*7171
0*7081
11
29*34
1*1330
19 58
1 * 2966
216 28
12
*9'47
1 -1349
19 59
1*2972
215 32
0*6989
13
+29*60
+ 1-1360
1*1388
20
+ 1 -2978
1*2984
*H 35
—0-6894
»4
£B
20 1
213 39
0-6795
0*6602
0*6586
15
1*1408
20 2
1*2990
212 43
16
29*99
1*1428
20 3
1*2995
211 47
»7
30*I2
1*1448
20 4
1*3001 '
210 52
0*6476
18
+ 30*26
+ 1 • 1468
20 $
+ 1*3007
209 56
—0*6362
1
20
(NAUTICAL ALMANAC, 1 882.)
Digitized by
Googk
; o6 APPARENT PLACES OF STARS,
, 1882.
QUANTITIES
\ fob CO&RECTIN&
m PLACES 0* STARS.
•
Mean
Midnight
f
I*g0-
Log A
H
Logt-
May 19
*
+30-40
+ IM488
1
20 6
+ 1*3012
' /
200 I
208 5
—0-6243
20
3° '&
1-1508
20 6
1-3017
0*6120
21
jo -68
1-1527
20 6
1*3022
207 IO
0-5993
0-5860
22
30-82
1 -1547
1-1567
20 6
1 • 3027
206 15
23
30-96
20 6
1 ' 3032
205 21
0-5722
24
+31-10
+ 1-1587
*o 6
+1-3037
204 26
-°-5578
*5
31-25
1-1607
co 6
1*3042
203 32
0-5428
26
3139
1*1626
*o 5
1*3046
202 37
0*5271
3
31*54
1 - 1646
so 5
1-3051
20I 43
0-5107
31-68
1-1666
20 4
1*3055
200 49
0-4936
29
+ 3*1-83
+ i- 1686
20 4
+ 13059
199 55
-0-4757
0-4568
30
31-97
1-1706
20 3
1 3063
198 8
3 1
32-12
1-1725
20 2
1-3067
0-4370
Jane 1
32-27
i' 1745
20 1
1 • 3070
197 14
0*4161
2
32-4*
1-1765
20 O
1*3074
196 20
0-3940
3
+ 32-57
+ 11785
1*1804
19 58
+ 1*3077
1 - 3080
195 27
—0-3706
4
32-72
32-87
19 56
»94 34
0-3458
5
1*1823
»9 55
1*3083
1*3086
193 40
0-3194
6
33-02
1*1842
1-1861
19 53
192 47
0*2911
7
33-18
19 52
1-3089
191 54
0-2607
8
+33*33
+ 1-1880
1950
+ 1*3091
191 1
—0-2279
9
33-48
33. 64
1-1899
19 48
1*3093
100 8
0*1923
10
1-1919
1-1938
19 46
1*3095
l \% IS
0-1533
11
3380
19 44
1*3097
188 23
0-1104
12
33'95
1*1957
19 41
1-3099
187 30
0-0627
x 3
+ 34-11
+1*1976
19 39
+ 1*3191
186 37
—0-0090
14
34-26
1-1995
19 37
1*3102
185 44
9-9475
98757
IS
34 '4*
1-2013
19 34
1-3103
184 52
16
34*57
1*2031
19 31
1-3104
183 59
183 6
97896
17
34 '73
1*2049
19 28
1-3105
9-6818
18
+ 34-89
+ 1-2067
19 25
+ 1*3105
182 14
-'9*5381
l 9
35 05
1*2086
19 22
1-3106
181 21
9-3216
—8-8701 '
+8-7879
20
35-21
1*2104
19 19
1*3106
180 29
21
35-36
1-2122
19 16
1*3106
170 36
178 44
22
35-52
1*2140
19 12
1-3106
9-2942
23
+35' 6 7
+ 1-2158
19 8
+ 1*3105
177 51
+9*5*15
24
35'83
1-2175
19 5
1-3105
176 59
9-6698 "
*5
35-99
1-2192
18 57
1*3104
176 6
9*7801
26
36-15
1*2209
1*2226
1*3103
175 14
9-8679
27
36-31
18 54
1*3102
174 21
9-9407
28
+ 36-46
36-01
+ 1*2243
1*2260
18 50
+ 1*3101
173 29
+0-0030
29
18 46
1*3090
1*3098
172 36
0-0573
30
July 1
2
36-77
1-2277
18 42
*7i 43
0-1055
36-93
37-08
1-2294
1-2310
18 38
18 34
1*3096
1-3094
170 51
169 58
01488
0-1880
3
+37 #2 3
+ 1*2326
18 30
+1*3091
169 5
+0-2239
Digitized by
Google
APPARENT PLACES OF STARS, 1882. 307
QUANTITIES Km CORRECTING the PLACES ©* STARS.
Men
Midnight.
Loft.
Log*-
Log«.
Jnly 4
i
9
20
• ji
12
13
:i
3
19
ax
22
*3
M
li
II
*9
jo
31
Aug. 1
2
3
4
i
7
8
9
10
11
12
13
»4
17
18
+37*39
37-55
17-70
S7-85
38-00
+38**5
38-30
3f-44
38-59
38-74
+38-89
39-04
39-18
39*33
39*47
+39; 6 «
39*88
40-02
40*16
+40-30
40-4S
40-56
40-70
40-83
.4-40-96
41 09
41*22
4i*35
41*47
+41-59
41-71
41 -83
41*94
42*06
+42-18
42-30
42-41
42 -S3
42-64
+ r:u
4»*9
43 ol
43*»8
+43**9
•2342
•2358
**374
«39?
-2406
'2421
•2436
-2466
■2481
*«495
**5«>9
•2523
*537
•2551
•2565
•2578
•2591
'2604
'2617
-2630
-2642
•2655
-2667
•2679
-2691
•2703
•2715
•2727
•2738
•2749
•2760
•2771
'2782
•2793
-2803
•2813
'2823
•2833
•2843
' 2 l 5 J
■2863
•2883
•2892
+ 1*2901
r
18 26
l8 21
+
:$i
1
18 16
[•3083
1
18 12
[•3080 :
1
18 7
[•3077
1
18 1
I758
+1
[•3074
X
[•3071
I
*7 54
[•3067
2i
17 49
t-3° 6 4
X
'7 44
: a 3060
li
17 39
+ 1
[•3056
x
«7 34
[-3051
17 29
■'3°47
17 25
-•304*
[•303$
17 20
17 15
+i
r # 303g
[-3028
17 10
17 6
[•302 3
[-3018
16 56
[•3013
16 51
+ 1
[•3008
16 46
[•300a
X
16 41
[-2997
X
16 37
1-2901
[•2985
X
16 32
Xi
16 27
+J
[-2980
li
16 22
16 17
[•2968
I<
16 12
1*2962
X
16 8
[•2956
I
16 |
15 58
+ i
1-2950
I
1-2943
I
15 54
[•2937
15 49
1-2931
*5 45
[-2925
1540
+1
r-2918
15 36
[•2912
15 3»
[-2906
15 27
[-2000
1-2893
15 23
15 19
+ i
[•2887
15 15
['288l
15 11
i-tjM
15 7
[-2869
15 3
[•2862
»4 59
+
[-2856
I
« I
168 12
167 19
166 26
'f5 33
164 40
163 47
162 54
162 o
161 7
160 13
«5
157 3*
15638
155 43
'54 49
'53 55
13
o
6
11
'53
152
'5'
150 16
149 21
148 25
47 30
46 35
'45 39
'44 43
'43 47
142 51
141 54
140 58
140 1
4
7
137 10
136 12
'35 '5
'34 '7
133 19
132 20
131 22
130 23
120 25
128 26
127 26
126 27
•2569
•2875
+o*
o*
0*3160
0*3426
03675
+0*3910
0*4131
0*4341
0*4540
0*4729
+0*4909
0*5081
05245
0*5402
0*5552
+0*5696
0*5835
0*5968
0*6096
•0*6219
+0*6337
0*6451
0-6561
0*6067
0*6770
+0*6869
0*6965
0*7057
0*7146
0*7233
+0*7316
0*7397
o*7475
0*755'
0*7624
+0-7695
0*7763
0*7829
0*7893
0*7955
+0*8015
0*8073
0*8129
0*8183'
0*8235
+0*8285
Digitized by
Goosu
3 o8 APPARENT PLACES OF STARS,
1882.
QUANTITIES
1 fob COREECTING
not PLACES of STABS.
Mean
Midnight.
/
1*%9>
G
LogA
H
Log*.
Aug. 19
+43 39
+ 1-2910
1
14 56
+12850
1
125 27
124 28
0*8381
20
43*49
1 2910
1-2928
14 52
1-2844
21
43*59
4309
14 48
1-2839
123 28
0*8426
22
1-2937
H 44
1-2833
122 28
0-8469
*3
43*79
1 294s
14 41
1*2827
121 27
0*8511
H
+43*89
+ 1*953
14 38
+1-2822
I20 27
+0*8551
**
43*99
4408
1-2962
14 35
1*2816
IIQ 26
Il8 25
0*8590
0*8027
1-2970
14 3*
1-2811
a
44- 18
1-2978
1*2986
14 29
1*2805
117 *4
0*8663
44**7
14 26
1-2800
116 23
0*8697
*9
+44*3 6
+ 1-2994
14 *3
+i**795
115 22
+0*8730
0-8701
30
44*45
1-3002
14 20
1*2701
1-2786
114 21
3*
4454
1*3010
14 18
"3 19
0*8790
0-8819
08846
Sept i
44* 63
1-3018
14 15
1*2781
112 17
a
44*7*
1 - 3026
14 12
1-2777
in 15
i
+44-80
+ 13033
14 to
+1-2773
no 13
+0*8871
4
44'«9
1-3041
14 8
1-2769
109 II
108 8
0*8895
0-8918
5
44*97
1-3049
1-3056
1-3064
14 6
1*2765
6
7
45*o5
45 14
14 4
14 *
1*2761
i*758
107 5
106 3
0-8910
0*8900
8
+45'**
+ 1-3071
14
+1*755
105 ,0
+0*8978
9
45*3°
1-3078
1-3085
13 58
1*2752
103 57
0-8996
10
45*39
13 57
i'*749
1-2746
102 54
0*9012
ii
45*47
1-3092
13 55
101 51
0*9026
12
45*55
1*3100
13 54
1-2743
100 47
0*9040
.13
+45*63
+1-3108
13 53
+1*2741
99 44
98 40
+o*90«
0*9064
1*
45*71
1*3115
13 5*
1*2739
15
45*79
45*87
13123
13 5i
1-2737
97 37
0-9073
0*9082
16
1-3130
13 50
1-2736
96 33
17
45*94
13137
13 49
1-2735
95 *9
0*9089
18
+46-02
+ 1*3*44
13 48
+1-2734
94 *5
+0*9095
19
46-10
1-315*
13 47
1**733
93 *i
09099
20
46- 18
1*3166
13 47
1 2732
9* 17
0-9103
21
46*26
13 4f
1-2732
9i 13
0*9105
0*9x06
22
46*33
1*3173
13 46
1-2731
90 9
23
+46-41
+ I '3 , !°
13 46
+i'*73i
ii !
+0-9106
24
46-49
1*3188
13 45
1-2732
0*9104
*5
46-65
1*3195
13 4f
1-2732
86 S7
0*9101
26
t * 3202
13 46
1-2733
JS 53
0*9097
27
46-72
1-3209
13 47
1-2734
84 49
0*9091
28
+46-80
+ 1-3216
13 47
+1-2736
83 45
+0-9084
0*9076
29
46-88
I 3224
13 48
1-2737
82 40
30
46-96
1-3231
13 48
1-2739
81 36
0*9067
Oct 1
47*04
1-3238
13 49
i*74i
80 32
0*9056
2
47-12
1-3246
13 49
i'*743
79 **
0-9043
3
+47**o
+13*54
13 50
+i'*745
78 24
+0-9030
Digitized by
Google
APPARENT PLACES OF STARS, 1882. 30
QUANTITIES fob CORRECTING
Tax PLACES op STARS.
Mean
Midnight
/
Logy.
6
Log A.
H
Logt.
Oct 4
+47*28
+ 1*3262
1
13 51
+ 1-2748
O t
77 20
+0*0015
* 8999
0-8982
i
47-36
1-3*69
13 5*
i'*75i
76 16
47 44
1-3277
1-3285
13 53
i*754
75 12
?
4753
13 54
1-2757
1-2761
74 8
0-8963 .
47-61
1-3293
13 55
73 4
0-8943
9
+47*69
47'7|
47-86
+ 1-3301
13 56
+ 1-2765
72
+0*8921
0*8898
10
1-3309
13 57
13 5»
1-2769
70 57
11
1-3317
1-2773
$2 «
0*8874
0*8848
12
, 47/94
48-03
1-3325
14
1-2777
1-2781
68 50
»3
i*3333
14 *
67 46
0*8820
14
+48-12
+ »*334i
14 i
14 6
+ 1-2786
6643
+0*8791
!i
48-21
»'335<>
1-2791
65 39
64 36
0*8761
48-30
13359
1-3367
1-3376
14 8
1-2796
1 -2801
1-2806
0*8729
3
4 f' 3 2
48-48
14 10
14 11
63 33
62 30
0*8695
0-8660
*9
+4f'|7
+ 1-3385
14 13
+ 1-2811
61 28
+0*8623
20
48-67
1-3394
14 15
1-2817
60 25
0*8585
21
I-3403
14 17
1-2823
59 *3
58 20
08545
22
48-86
1-3412
14 19
1-2829
0-8503
23
48-95
1-3422
14 20
1-2834
57 18
0*8459
. *4
+49"0S
+ »-343i
14 22
+ 1-2840
56 16
+0*8414
*5
49.15
49-26
1-3440
H *4
14 26
1*2846
55 14
0*8366
26
1-3449
1*2852
54 "
08317
3
49-36
i'3459
14 28
1*2859
53 *°
0*8266
49 46
1-3469
H 30
1*2865
5* 9
0*8213
29
+49 56
+1-3479
1-3489
14 3*
+ 1*2871
51 I
50 6
+0*8158
30
49-67
14 34
14 36
1*2878
o*8ioi
3'
49-88
1-3499
1*2884
49 5
48 4
0*8042
0*7980
Nov. 1
1-3509
14 38
1*2891
2
49*99
1-3519
1440
1*2897
47 3
0*7917
3
+50* 10
+13529
14 4*
+ 1*2904
46 2
+0*7851
0-7782
4
50-22
1-3539
14 44
1*2910
45 2
5
5o "33
1-3550
14 4*5
1*2917
44 *
0*7711
6
50-45
13561
14 48
1*2924
43 «
0*7658
0*7501
7
50-56
1-3572
14 49
1*2931
42 1
8
+50-68
+ 1-35*3
14 51
+ i**937
41 1
+0*7482
9
50-80
1-3594
14 53
1*2943
40 2
0*7400
10
50-93
1-3604
14 55
1*2950
30 2
38 3
0*7316
11
5105
1-3615
14 57
14 58
1*2956
0*7228
12
51-17
1-3626 •
1*2962
37 3
0*7137
13
+51-30
+ ',-\Ui
14 59
+ 1*2969
36 4
+0*7042
H
51-42
15 1
i*975
1-2981
35 I
34 5
0*6044
0*6842
15
51-68
1-3659
15 2
16
1*3671
1-3683
15 3
1-2987
33 7
0*6737
*7
5181
15 5
i*993
32 9
0*6627
1 "
+5 I# 94
+1-3694
15 6
+ 1-2999
31 10
+0*6513
Digitized by
Googk
3 io APPARENT PLACES OF STARS,
i88a*
QUANTITIES
, foe CORRECTING <
rm PLACES of STABS.
Mean
Midnight.
f
Log$r.
G
Log A,
H
Logt.
Nov. 19
*
+52-08
+ 1*3706
1
x 5 I
+ 1-3005
#
30 12
+0-6395
20
21
52*22
52*36
1*3718
1-3729
15 8
»5 9
1*3011
1*3016
tin
0*6272
0-6144 -
22
5* '49
i'374i
15 11
1 • 3022
27 18
o*6oio
*3
52-63
i'3753
15 12
1*3027
26 20
0-5871
24
+5*'77
+ 1-3765
15 13
+ 1-3032
25 22
+ 0*5726
.25
52-91
i'3777
1-3789
1-3801
15 13
1*3037
24 25
0*5575
26
S3 05
15 14
1*3042
23 27
0-5416
3
S3* '9
15 *s
1-3047
22 30
0*5250
S3 '34
1*3813
is is
1-3052
" 33
0-5076
29
+53 '49
S3 -6a
S3 78
+ 1-3825
15 16
+ 1-3056
20 36
+0-4893
30
I-3837
15 16
1 • 3060
10 39
18 42
0-4700
Dec. 1
l '$&
15 16
1*3068
o-4497
0-4283
0*4058
2
53 '93
54-08
1*3861
15 17
16 48
3
1*3873
15 17
1*3072
4
+54*3
54' 38
+ 1-3885
15 17
+ 1*3076
*5 Si
+0*3815
0*3558
I
1-3897
15 16
1-3079
1*3082
14 5S
13 58
54' 53
5468
1 3909
15 16
0-3284
I
1 3921
15 16
1-3088
13 2
0*2989
54 '«3
i*3933
15 15
12 5
0-2071
9
+5499
+ 1-3945
15 15
+ 1-3091
11 9
+0*2327
10
55 14
i*3957
15 15
1-3093
I0 # I2
0*1952
11
55 29
1-3969
15 14
1-3095
9 16
8 20
0-1539
0*1081
12
55'45
1-3981
15 14
1-3097
13
3561
i*3993
15 13
1*3099
7 *3
0-0568
14
+5S'76
+ 1*4005
15 12
+ 1*3101
6 27
+9-9984
IS
55 '9*
1-4017
1*4028
15 II
1-3102
s 31
9*9308
9 8505
16
56-08
15 10
1*3103
4 35
\l
56-24
1-4040
Is I
1-3104
3 39
9'75**7
56- 39
1*4052
1-3105
* 43
96235
19
20
+56-55
56-71
56-86
+1*4064
1*4076
1*4087
1*4098
IS 7
15 5
+ 1-3105
1*3106
1 47
51
+9-4405
+0-1177
-8-1314
21
15 4
1*3106
359 55
22
57-02
15 2
1-3106
35f 59
9-1093
9-4812
23
57-i8
1*4110
15 °
1-3105
358 3
24
+57*33
+ 1*4121
14 58
+ 1-3105
357 7
-9-6507
25
57 '49
1*4133
14 56
1-3104
356 10
9-7722
26
57-65
1*4144
M- 54
1*3103
355 H
354 18
9*8669
27
57-81
1 '4155
14 52
1*3102
9'9445
28
57-96
1 -4166
14 50
1-3100
353 «
0*0102
29
+58-12
+ ::$s
i 44 f
+ 1*3099
352 26
—0-0672
30
58-28
1446
1-3097
351 29
0-1174
3 1
58-44
1*4199
14 44
1*3095
350 33
0-1623
32
+58-59
+ 1*4209
14 42
+ i*3°93
349 37
—0-2028
Digitized by
Google
APPARENT PLACES OF STARS, 1882. 31
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day;
« Urs® Mill*
(Polaris)
Cephei 51
(Hev.).
*>Urs® Min.
o-Octantis.
X Ursas Min.
a. A.
Dee.N.
R.A.
Dea.Il.
B.A.
Dw.N.
B.A
Dee. a
R.A
De&N.
h m
/
h xb
/
h m
1
h m
1
h m
1 15
884I
645
8713
l8 9
8636
1826
8916
1940
8856
Jan. I
55' 28
I2'0
•
24-00
*
31-6
54*86
35*5
52-81
19*4
40-88
66-2
2
54-50
.12*1
24-15
24-26
319
54*82
35-2
53*55
»;
40-33
39-76
65
3
53-66
12*2
32*3
32*6
54* 80
34*9
54*3-
65 -6
4
54-77
51-82
12*3
2438
54-79
54* 80
345
55*09
18*3
3 f'i 8
65-3
i
12*4
24-48
32*9
34-2
5J'! 6
18*0
38 64
65*0
50-83
12*5
24*55
33*2
54-84
338
56*60
17-6
38-15
64-7
1
49-81
48-80
12-s
24*59
33*5
33*8
54-8?
54-9*
33*5
57*30
-7*3
37*73
64*3
12-6
24-60
jj.j.
HZ
16*9
37*37
37-08
64*0
9
47-80
ia-6
24-59
34*1
5S-o6
32-8
166
637
10
46-83
12*6
24-56
34*4
55-5
32-5
59*24
16*3
36-86
63*4
11
45-89
I2'7
24-52
34*7
55 25
32*2
io-n
16*0
36*70
63-1
12
45 -oi
12-7
24-46
35*i
5535
31-8
15-7
36*56
62-8
13
44*17
12-7
24-42
35*4
S5-45
3i-S
61*50
15*3
36-16
m
14
43-36
\',l
24-39
35*7
55-53
3I , 2
62-46
15-0
a
42 *5 6
24-37
36-0
55-61
30-9
63*52
14*7
35*97
615
41*75
12*8
24-37
£i
55*69
55-7-5
. 30-5
64*68
H-4
35*74
61 • 1
:s
40*90
128
24-37
24-38
30-2
65*92
14*1
35*47
60*8
40-00
12-7
3 6« 9
55*84
29-9
67-19
13*8
35*23
60-5
19
39-03
38-01
12-7
24-36
37*2
55*95
29*6
68-43
13*5
35-06
60-2
20
12-7
24-30
37*5
56*09
29-3
69-59
13*2
34*97
34-98
59'9
21
36-96
12-7
24-21
37*8
38*1
5625
20*0
28*7
70*64
!*:i
59-6
22
35-92
12-6
24-07
56*44
71*63
35-07
59*3
5 !'f
*3
34-94
12*6
23-91
38*4
56-64
28*4
72-62
123
35*25
24
34-01
12*6
23*73
38*7
56- 84
28 M
73-63
12*0
35*45
586
*s
33*15
12*5
23-56
39*o
57*03
2 7 -a
27 # 6
74*74
n-7
35-63
58-3
3*-34
31-56
125
23-42
39*3
39*6
57*20
75-97
n*4
35*79
57-9
' %
12*4
23-20
23-16
57*37
27-3
773-
78-75
ii*i
35-92
57-6
30-78
124
39*9
57*52
27*1
io*8
36-00
57'3
*9
29-99
29-16
12*3
23-04
40*2
57*68
268
80-28
io*5
36-08
57-0
30
12*2
22-94
40*5
57*84
26*5
81*84
IO*2
36-16
56-7
3»
28-30
12 -I
22*82
40*8
58 02
26*2
83*41
10*0
36-27
564
Feb. 1
27-40
I2*0
22*69
41-1
58-22
25-9
84-95
86*45
9'7
36-42
56-0
a
26-46
!!'!
22*54
41-4
58-0!
25-7
94
36-62
55*7
3
25-50
22-34
416
25-4
87*91
36-89
55*4
4
24*55
23-60
n-7
22*12
41-9
58*91
25*2
89-32
90*69
37-22
55 J
5
ii-5
2I-87
42-2
59-'7
24-9
8-7
37-62
54'8
6
22-68
ii-4
2I*6o
42-4
59*45
24-7
92*05
5 -4
3809
54'5
I
21-82
ii-3
21*32
42*7
59'73
24-4
93-42
8-2
38-59
54*2
2I'OI
II'I
2I*0|
20*70
43*0
60 -oi
24*2
94*84
96-33
8-o
39-10
53-6
9
20'25
II'O
43*2
60*28
24*0
7-8
39-63
10
S3
io'8
20*49
43-4
60*54
23-7
9791
7*6
40- 13
53'3
11
10-7
20*23
43*7
60*79
23-5
9960
7*3
40-59
53-o
12
18-19
10-5
19*99
43 9
61*03
61*28
23-3
101 • 39
I' 1
41-01
52-7
13
17-50
103
19*77
44*1
23-1
103*25
6-9
41-41
524
14
•6'77
10*2
•9-55
44*4
61*52
22 a 9
105*15
6-7
4'*79
52-2
15
15 99
lO'O
19*33
44*6
61-78
22*7
107-03
65
42-20
51-9
Digitized by vjOC
O
3i2 APPARENT PLACES OF STARS, 1882.
AT UPPER TRANSIT AT GREENWICH.
Month
and
a Ursae Min.
(JPolari*)
Cephei 51
(Hev.)-
J Urate Min.
*0ctaatb.
X Urate Min*
B.A.
Dc*N.
B.A.
DecN.
B.A.
DecN.
B.A.
Dee.&
R.A.
DecN.
h m
;
^45
1
h m
/
h m
/
h m
1
I 14
884O
8713
l8 IO
8636
18 zy
89 16
1940
88 56
Feb. 16
75- 16
69" 8
8
19*08
44*9
2'06
22*5
48" 84
50 56
63
42" 69
5^6
l l
74-30
696
18-78
451
2-37
22*3
61
43*7
4396
51*3
18
73*44
69-4
18-46
45-6
2-70
22*1
52- 19
59
51*0
19
72*62
09'2
l8'IO
3-04
21*9
53 '7S
5*7
44*7*
50*7
20
71-87
69*0
68-8
I7-7I
45-8
339
21*7*
55-30
55
4S*5*
46-33
505
21
71-19
l 7*S3
46-0
3'73
21*5
56 93
S3
50*2
22
*3
70-59
70-03
6a- 6
68-4
16-96
1661
46-2
46-4
4-05
4 "i!
4-66
214
21*2
60-48
5*1
5*o
47-10
47-84
48-54
50-0
49"7
*4
ft' 51
6|-97
68-2
16-28
4f-5
21*1
62-42
4-8
49*5
3
68*o
%u
46-7
4-96
20'0
20*8
6647
4*7
49-20
49*3
68-41
67-7
46-9
5-26
4*5
49*86
$1
*7
67-82
67-5
15-35
47*1
555
20-6
68-52
44
5o-53
28
67-20
67-3
1504
47-2
5-86
619
20*5
70'55
4*
51*22
48*6
Mar. 1
66-56
67-0
66-7
14-70
47'4
47-6
20-3
72 53
4*o
519 6
48*3
2
65-90
14-34
13-96
6-89
7-26
20-2
74-45
76-31
3*9
5**75
48*1
3
65-23
66-5
47-8
20*I
36
53* 61
47-9
• 4
64-59
66*2
1355
47*9
48- 1
20-0
78 12
54'53
47-7
5
63-97
66*o
1313
7-65
I99
79-90
35
55*51
47-S
6
63-41
65-7
12-69
48-2
8-03
I9-8
8i«66
3'3
5652
47'3
I
62-92
65-4
12-25
48-3
8-41
19-7
83-45
3*
57-56
58-59
47-1
62-48
651
11-82
*!*!
8-77
19*6
85-29
31
46*9
9
62*10
64-9
"'32
10*98
48-6
9-it
9-48
l rs
87-21
30
59 59
46*7
10
61-76
646
48-7
48-8
19*5
89-21
l-l
60-55
46*5
11
61-44
64-3
io*59
9-82
194
9i'30
6i'47
46-3
12
6l *I2
64-0
10-22
48-9
IO'IJ
10-48
10-81
194
93-4f
95*66
2*0
62 35
46-2
13
60*78
63.8
9-86
49-0
19-3
63-20
46-0
14
60-40
63-5
951
49-1
19-3
97*85
**5
64*07
45'9
15
59-98
63-2
014
8-74
492
11-15
19-3
99 '99
2-4
64 98
45*7
16
59 5*
62*9
49-3
11-51
11-89
19-2
102*04
23
65-95
4S*6
'7
5906
62 -6
8-32
493
19*2
■0397
2-3
66*99
45*4
18
58-61
62*3
7-86
494
12*29
19*2
105*82
2*2
68-13
45*3
19
5823
62*0
It
49'4
12-70
19-2
107*61
2'2
69-34
45*1
20
5793
61-7
495
13-10
19-1
109*42
2'I
70-55
4S*o
21
57"7'
61*4
6-40
49*5
13-49
1385
19-1
r 11*29
113*28
2-1
71*74
72-87
44*8
22
57*5*5
61 • 1
5*95
49-6
19*1
2'0
447
23
5745
60 -8
5-52
49-6
14-19
19-1
115*38
2-0
73-95
44'6
24
57-35
60-5
512
496
I-T53
14-86
19*1
'17-54
119*76
2-0
74-98
44-5
*I
57 'H
60 'i
4-73
49 -6
19-2
2'0
75*97
44-4
26
57-10
59-8
4'35
49-7
1518
19*2
121*97
1*9
76*96
44'3
3
56/94
595
3'97
3-5|
49-7
15*86
19-2
124*15
126*27
1*9
77-96
7»*99
80-07
44*2
56-75
%i
49' 7
19-3
1*9
44*2
*9
5 6> 54
3-16
49'7
l6'22
19-3
[2833
i-9
44*1
30
56-32
5«-5
r7i
49'7
1659
19-4
130-31
19
81-19
440
A 3I
5613
582
2*27
49*7
16*97
19-4
132-23
i*9
82*37
44*0
Apr. 1
If IS
57-9
i-8i
497
49-6
17*37
19-5
[34-09
1-9
|3|9
43'9
2
57'5
i'33
17-75
_yr!
[3531
1*9
14^5.
439
Die
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1
APPARENT PLACES OF STARS, i
882.
31
AT UPPER TRA*
fSIT AT GREENWICH.
Month
a Urs® Min.
Cephei 51
and
Day.
(Potorw)
(Hot.).
R.A
DeaN.
B.A.
Dee.
h m
/
h m
*
h m
O /
h m
/
h m
O 1
i 14
884O
6 44
8713
18 10
8636
l8 29
8916
1941
8856
Apr. 3
55*80
It
57**
60-85
49*6
18-13
It
I 9 '7
I9-8
l T7S
H
19
s
26*12
43*8
4
55-82
£t
60-37
496
18-50
1886
19*61
19
zs
43*8
i
S5*9
59-91
49*5
199
2i*S3
2*0
43*8
5599
56 14
563
59 47
49*5
19-20
20*0
23*52
2*0
29*80
43'7
*
56-0
50-06
58 67
49*5
'9*53
19-84
20' I
25*60
2*0
30*94
43*7
56 30
55-7
49*4
20*2
*7'74
2*0
32*01
43'7
9
5 H 5
54-8
58-30
49*4
20*15
20*3
29*91
2*1
33 04
43*7
10
57*94
49*3
2045
20*4
20*6
32*08
2*1
34*07
436
ii
5667
54* 5
57'57
49-2
20-76
34' 19
2*1
3510
43-6
12
56-69
54 I
57-20
49-1
21 -08
20'7
36*22
2*2
36*18
436
*3
56-72
53*
5 f* 7 l
56-36
400
489
21*42
20*9
38 14
2*2
37*3*
38-55
436
»4
56*80
535
2177
► 2I-0
3995
**3
43*6
!i
56-94
53*
55-90
488
22*13
21*2
41*68
2*3
39-«3
43*7
S7'»7
520
52-6
55 '43
HI
22-49
22*84
23-16
21*3
43*37
**4
41*13
43*7
I"
57*47
S7'«3
54*97
21*5
45* 10
2 'I
42*41
4363
43*7
43*8
52-3
54*54
485
21*6
46*02
48*82
2*6
»9
S !'*- 3
52*0
54- 13
48 4
23 46
218
u
4479
45 89
43*8
20
58-62
51-7
53-75
48-3
23-74
22*0
50*80
43*9
21
58-98
5i-4
534*
48-1
24-01
22*2
52*83
2*9
46*92
44-0
22
59*3«
S9 'f°
5, 'i
53-09
52-76
47-9
*4*7
22*4
22*6
54*89
56*93
3*0
47*92
48-9*
44-1
23
50-8
47'7
*4*53
24-80
3*»
44*
*4
59-88
60-14
50-5
5* 43
476
22*8
5891
32
49 92
44'3
'i
50-3
52-09
47-4
25 07
23*0
tw
3*3
50*96
44*4
60-41
50-0
51-73
47-3
25 36
23*2
3*5
52*04
44*5
11
60-71
49' 7
5136
47*i
25-65
2 3 *A
23*6
64*29
3-6
5315
44-6
61-04
494
50-97
4 r°
2594
26*25
65*93
3 'Z
54*31
44*7
44-8
*9
61 -Jl
40-1
48-8
50*57
468
2 3 -8
6753
3-8
56 ft
57-88
30
50- 17
49-78
ill
26- 54
26*83
24*0
69*10
4*o
44'9
May 1
62-38
48-6
24*3
70*69
4*i
450
2
62-95
48-3
49*4*
46-4
27*09
*4'5
72*31
43
59 03
451
3
63 56
48-1
40 07
48-74
46*2
27-34
27-56
24*8
73-99
ft
60*12
453
4
64- 17
478
46-0
25*0
75-74
61*15
45 4.
456
I
64-77
47-6
48-45
45-8
27-77
253
77-54
4*7
62*11
! s 'i s
65-89
6639
47*3
48- 17
45-6
2797
28-16
25 1
25*8
26-0
79 38
81*23
4*9
63*01
457
1
47*1
47-92
45*4
5-0
6389
459
468
47-68
45*
28 35
83*02
52
64*76
46*0
9
66-85
466
47*4*
45 -o
28-56
263
84*74
53
6564
46-2
10
67-30
46-3
47*H
448
28-78
26*5
f 6 '2 4
87*82
55
66*58
463
11
67-77
46-0
46-84
44*5
29*00
26*8
5-7
68*62
46-5
12
68-31
45-8
46-52
443
*9*3
29*46
29-68
27*0
89*20
59
46* 7
«3
68-92
69-61
45-6
46-10
45-86
44-0
27*3
90 52
91*82
61
69*70
469
»4
45*3
438
27*5
6-3
70*77
47" *
»s
70-36
45- »
45*55
43*5
29-89
27*8
28*1
93*17
i 5
7'*79
473
16
71-16
44'9
45 *7
43*3
30*07
94 *6o
96*12
I" 7
72*74
47 i
:i
71 96
44-7
45-02
43*0
30*22
28*4
69
7361
477
72-73
44' 5
4481
42-8
30*35 *8*7
9769 7*1
74*40 47*9
Digitized by
Google
3 r 4 APPARENT PLACES OF STARS, iSSz.
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
aUrses Mia.
{Polaris)
Cephei 51
(Hot.).
&UrrB® Min.
e- Octant's.
X Urs» Mia.
RA
DecN.
B.A.
Dee.N.
RA.
Dee.K.
B.A.
Dm. 8.
B.A.
Dee.lt.
h m
t
h m
1
h m
;
h m
1
h m
0- 1
1 15
8840
6 44
8713
18 10
8636
183O
8916
1942
8856
8
*
8
■
»
■
K
•
g
May 19
-*3'47
44' 3
44-63
44-48
4« , 5
30-47
29*0
39*50
40*89
7*3
1515
48'I
20
14*10
44-1
42*3
30*59
293
29*6
n
15*88
u
21
14*82
43'9
44-29
42*0
30-71
30*84
42-41
«
16*59
22
'5*47
43*7
44"
41*8
299
43*86
T 3 i
18*06
48*8
*3
10*11
43*5
43'9*
4i*S
30*98
30*2
45*21
8*2
49*1
24
16*76
43*3
4371
41-3
31*13
30*5
46*45
8-5
18*85
49*3
z $.
ir43
43*
43-50
41*0
31*27
30*8
47-61
48*70
V
19*68
49*5
26
l8*I5
43 -o
43-28
40*8
31-42
31-1
8*9
20*52
49*8
a
l8*92
42-8
43-04
40*5
31-57
3**4
49*73
92
21-37
50*0
r 9-74
42-7
42-82
40*2
31-70
3*7
?,$
9-4
22*21
50*2
29
20*62
4**5
42*62
39-0
39.6*
31*81
32*0
96
23*01
SO'5
30
21*54
42-3
42-43
31-91
32*3
52*96
99
23*77
50*7
-. 3I
22*49
42*2
42*28
39*3
31*99
32*7
54-u
io- 1
24*46
51*0
June 1
23*42
42*0
42-15
42*06
30*0
38*7
32-05
33.0
55*33
10*4
25*07
51*2
2
24*31
419
32*09
33*4
56*59
57*«5
io*6
25*60
5**5
3
25*17
41*8
41-99
38*4
32*12
33*7
10*9
26*o8
5*"8
4
'25*98
4»*7
41-93
41*87
38*1
32-14
34*0
59*07
11*2
26-54
52*0
5
26*75
41*5
37*8
32*17
34*3
6o*22
n*4
27*02
52*3
6
27*50
41*4
41-79
37*5
32*21
34*7
6t*24
n*7
-•7 '54
52*6
7
28*25
4'*3
41*69
37-2
32*27
35*0
62*12
n*9
«8*n
52*9
8
29*05
41*2
41*56
iS-'l
32*33
35*3
62*89
12*2
28*72
53*a
9
29*00
30*82
41-1
4'-43
32*40
35*7
$3
12*5
29*36
535
10
41-0
41-30
363
32*46
36*0
12*7
29-99
53-8
zi
31-81
40-9
41-18
36*0
32*50
36-3
64*95
13*0
30-58
54* 1
12
32*84
40-8
41*08
35*6.
•32*54
36*7
65-70
I 3 *2
31-11
54*4
13
33*87
40-7
41*03
35*3
32*51
37*0
66*51
13-5
31*56
54*7
14
34*89
40-0
41*01
35*0
32*48
37*3
67*39
68*30
13*8
3"'94
55 *o
*5
3 §1 7
40*6
41*02
346
3* '43
32*38
37*7
*4'*
32*24
55*6
16
36*8r
40-5
41*04
34-3
380
69*21
:m
32*50
*7
37*70
40-5
41*08
34*0
32*32
38*3
70*07
32*73
55*9
18
38*56
40-5
41*12
33*7
32*27
38*7
70*85
*4*9
32*97
56*2
19
39*40
40-4
41*15
33'4
32*23
39-0
7>'53
15*2
33*22
56*5
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APPARENT PLACES OF STARS, 188a. 31
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3 i6 APPARENT PLACES OF STARS, i
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AT UPPER TRANSIT AT GREENWICH.
Month
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1 16
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Google
APPARENT PLACES OF STARS, i
882.
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Month
and
a Una Min.
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C«phei 51
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3186
26*9
26*8
14
56*13
17-9
37-96
127
44-85
53*8
45*99
30*2
30*47
15
55-7 1
18-2
3«-45
12*8
44*50
53*6
45*15
299
29*07
26*7
16
55-24
186
38*92
I3*0
44 'If
53*4
44*3*
29*7
27*71
26*6
17
54* 7*
189
39-36
13*2
43-86
53'
43*45
29*4
26*39
26*5
18
54* 16
19-2
39-77
»3-4
43 58
529
42-50
29*1
2513
26*4
Digitized by
Googk
3 i8 APPARENT PLACES OF STARS, 1882.
. AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
a Urs» Min.
(Polaris)
Cephei5i
(Hev.).
ITJrasB Min.
rOctantis.
X Urs® Min.
R.A
DecN.
R.A.
DecN.
B.A.
Deo. N
. B.A.
Dee. 8.
R.A.
DecN.
li m
i
h m
f
h m
t
h n
/
h m
r
<
1 16
88 41
645
8713
l8 986 36J18 28|89 l6 19 39
18857
Nor. 19
53-60
n
19*5
40'*5
13-6
43*3*
52*6
41-48
28*9
82*i 3
26*3
20
53-07
19*8
40-51
40-86
138
43* 06
5**4
40-4I
28*6
26*1
21
52-59
20'I
14*0
42-81
52-1
39*33
38-30
28-3
81*77
26*0
22
52-15
20 '4
41*21
14*2
42*57
519
51-6
28-0
80*73
70*65
78*53
25*8
»3
si-ye
20*7
41-59
14 i
14-6
42-32
37-36
27-7
25*7
*4
51-38
21
41-98
42*06
5**3
36*55
27*4
25*6
*5
50-98
21 X
21*6
42-40
14*8
41-78
5*i
35-88
27*1
77*35
25*4
26
50-53
42-83
4 3'5f
15*0
41*50
50-8
35-32
34-84
26*8
76-12
253
3
50-01
21-9
152
41*21
50-5
26*5
74*86
251
49*4*
48-08
22*2
43-68
15-4
40*68
50-3
34*3«
26*2
73-61
24-9
24-8
*9
22*5
44-08
15-7
50-0
33*90
25-9
72-38
30
22*8
4443
159
4o-44
49*7
33*38
25*6
71-22
24-6
Dec. 1
4 n 6
23-O
44-76
16-2
40*22
49*4
32-82
25*2
70*12
24-5
2
23}
23*6
45-07
16*4
40*02
49* t
32*22
24*9
69*08
68* 10
**4*3
3
45*93
45-35
45 03
16*7
39'83|48*8
31-58
24*6
24*1
4
45 **6
23*8
16*9
39-66*
*r s
3o-94
24*2
67*17
239
I
44-62
24*1
45-90
17-2
39*So
48*2
30-32
23 9
23*6
66*27
237
44-01
H'4
46-18
i7'4
39*34
47*9
29-77
65*38
-*3*5
I
43*4*
42-14
24*6
46-46
17*7
35*16
38*98
47*6
29-31
28-95
23*3
64-48
23-3
249
46-76
17*9
18 \2
47*3
23*0
tit
23-1
9
42-25
251
47-07
;::*e
47*0
28-70
22*6
22-8
10
41-64
25*6
47*4o
*1'5
4*5*7
28-57
22-3
6i-6o
22-6 1
11
4o-97
48-06
187
38*41
464
28-51
22*0
60-56
22-3
12
40-24
25 -8
19*0
38*22
46-0
28-50
21*6
59*5*
22*1
*3
39-44
'26-0
4 5'l 7
48-65
19-3
19*6
38-04
45*7
28*52
213
58-49
21-8
14
38-58
26*2
37*88
45*4
28 -.5 1
20*9
20*0
57*5-
21'6
*5
37- 70
36-81
26*4
266
48-89
49-08
19-9
37*75
37-65
45*
28-44
56-61
21*4
16
20*2
44* 7
28-29
20*2
55* 80
21*1
l l
35*94
26*8
49 *5
20*5
37*57
44*4
2«-II
190
19*6
55-08
2O-9
18
35*13
27*0
49*4i
20*8
37*So
44*i
27*90
54*4*
20*7
19
33*66
27*1
49-56
21*1
37*44
43-8
27-73
27*64
19-2'
18-9
53*77
20*4
20
*7'3
49*73
21*4
37-36
43*4
53*3
20*I
21
32-96
27*5
49*9-*
2t*7
37**8
43'
27-68
18-6
52-46
19*9
19*6
22
32-25
27-6
50' 12'
22 -O
37-10
{3-»
36-89
42-8
27-87
28-17
l8'2
5i*75
23
3i # 53
27-8
28-O
50-35
"'I
22*6
ts-'tl
418
179
50*99
-9*3
24
30-74
50-S8
28-56
*75
50*20
191
*s
29*89
28*98
28*1
50-70
50-98
22*9
36-80
41*4
29*00
x Vl
49*40
48*63
18*8
26
28*3
23*2
36-73
41-1
29-46
i6*8
l l' 5
.1
28*03
28*4
51**5
*3*5
36-69
36-68
40-8
(S-S}
{2.!}
47*93
47*28
18-2
27*04
26*07
*8*S
51-29
23-8
40*5
30-57
159
*7*9
29
286
5I-40
24*1
36-68
40*2
30-87
*S'S
46*70
.'7*7
30
25-11
28-7
5I-48
24-4
36-69
398
31-17
152
46*21
'7*4
31
24*18
28-8
5I-52
24-8
36*72
39*5
31 '12
H9
45*78
17*1
32
23*28
29*0
■
5I-56
25- 1
36*75
39-1
31*86
1
45*4*
16*8
Dig
tized by V.
;ooq
le
APPARENT PLACES OF STARS, 1882. 319
AT UPPER TRANSIT AT GREENWICH, f
Month
and
Day.
, Andromeda.
B.A.
Dec. K.
y PegasL
(Algenib)
B.A. Dec.1T,
Ceti.
E.A.
Dee. 8.
Hydri.
R. A. Dec S
Jan. 1
11
ai
3*
Feb. 10
20
Max. 2
12
22
Apr. 1
11
21
May 1
11
21
3*
Jane 10
20
30
July 10
20
Aug. 9
19
Sept
18
28
Oct 8
18
28
Nov. 7
*7
*7
Dec 7
■*7
27
37
18
18 «
*r
17
17
17
17
17'
»
17'
17
M
18'
18'
18
I 9 <
19-
19*
20*
20 *
20
21'
21
21
21
2I«
22
22
22
22
22
21
21'
21'
21'
21'
21'
21'
*5
II
98
86
76
f 5
Z% 26
34 'g «
III »'
16
27-9 J
2
24*6
•*
16
h
o
•
IO'
10*
10*
10-
10
10
9
9
7
14 31
*3
36
»S
06
00
96
'61
'i
9*
09
58
88
so
22
55
86
H
•40
62
79
93
02
07
09
•07
•oj
'95
'»S
61
'47
3 S
18
9
«1
18
M
26
3©
3*
31
34
35
33
31
28
36
at
23-1
2I"9
21*1
20*6
20 $
20-8
21-4
22*4
/»•»
l»*«>.
3
6
14
13*8
*5-5 a ;
«7'5^
29-7
*3
34-S 4
39*4 "
»4
ft! h
*4 * .i
46-3
48-3
90-1
51-6
52-8
53-8
54'4
54'8
54*8
54'5
53 9
S3''
28
*s
la
10
'20
•36
:E
•07
37
■68
00
■63
•9*
'20
44
•65
■8z
95
05
it
13
it
•08
'02
? 4
84
'6l
48*2
"47*4
'46-4 "
> T T II
45*3
II
.44*2
L TJ JO
41-4
6'
25-
25
*5
»5
25
25-
*5
«5*
O /
9 28
»
•6i 41*2 ,
50 "4i-7 J
29 42-4
9
20 B 42-4
14 4 4*'3
10 *4i'9
— 41-3
o 19
29-92 |3
29*06
28-26
77 54
O
78
67
54
40*6
»3
*7
30
31
32
3«
31
*9
28
H
17
40*4
3
6
f 42'0 ;
r Ir2 "
'J-4'6 H
t 17
46-3 t
'48-i "
S0-2 i0
'I5V3 "
21
fe-t **
6o-6*°
18
•4 H
6 M
4-:
,»5
25
*S'
25
25
25-
26
26
10
10
$
13 6 40-4
.45 '* 36-3
19 17
19 1
•64 M 34*6 ,
•86**32-7 ]
•11 *f30*7 '
39 a8 *8-7 !
26
»7
*7
«7'
39
'69
00 3 1
62-
,J 64
10 -
c
|65
66-
67
•68
Jfil
I
69
,!9
10
6
\l
1 *
o
I
o ■
28
28
28
28
29
29
21
26*5
'24-4"
•32^22-i*°
'63 J, 20'
*' »
i8>9
. * 7 i7-5
•44 *' 16-3
18
83 «4'
97 J '4'
07 6 i4-
13
9*
i9:
18
»7
»4
11
8
27-61
27*07
26-40 * 6
26*29
'26-36 7
26-59 'A
26*97 3
S3
T s ° 67
28 '-7 si
28-97
o QO
29-87 9
99
30*86
106
3S # I4
3°-4 ,oe
37-05
37-85
i-6
29
29*
29-
29-
-5
14
10
•04
14*9
15*3
16*0
16-8
17*7
6%
68*
12
*J
, 6 7-
66-
28'
28
28
28
6
10
9
10
18*7 ,
9
9
38*51
39* 00
39*30
39*42
39-35
30*09
38*65
38*05
19*7
"20*6
"21*5
66
49
30
is
7
16
44
60
74
84
28
28
'5*
'40
12
22*2
"22-9
37-3I
36-47
35'56 9
34-60 »
97
95
82
81
79
77
I-
*7
W°si
71-9*
64'9 36
38
6i-i
57-J8
53' 2
49 . 5 37
35
46*0
4«-8>;
40-0
3T5 aS
20
35'5 IS
3* ,0 ,o
33-o
32-6 *
IP/'
23
4 ?>
47 -5 3
3'
«o-6
* ?i
59*i 5
21
61*2
62 -9 17
63 -J"
64-4 5
a
64*2
6l'5 7
Digitized by
Goo
o
i2o APPARENT PLACES OF STARS, 1882.
• AT UPPER TRANSIT AT GREENWICH.
Month
and
D»y.
12 Ceti.
R.A. Dec. 8.
a Cassiopeia.
R. A* Doc. Ni
]9GetL
R.A.
Dec&
ftPiBcium,
B. A. Dec N.
Jan. 1
IT
21
Feb. 10
20
Mar. 2
12
22
Apr, 1
11
I 2I
May 1
11
21
3*
Jane 10
20
30
July 10
20
Aug. 9
*9
29
Sept 8
18
28
Oct 8
18
28
Nov. 7
17
Dec. 7
17
*7
37
h n
24
i"-8j t
i # 6o
1 50
1-41
I'M
1*29
1-27
4 36
1*29
135
x ' 4 2
158
1-76
1*98
2*22
2*50
2-79
3*io
341
3*72
4 # oi
4-29
4' 54
4-76
494
5-09
5"20
5-27
531
5-29
5'*4
S '7
5*08
4-q8
4-87
463
6
10
13
18
22
*4
28
29
31
31
3>
*9
28
*5
22
18
»5
zx
7
33 #
33 # 3
33-2
329
3* # 4
3*5
30-4
29*2
27-7
25-9
24-1
22*1
2CI
18*0
16-0
14-1
12*3
10-7
•4
•3
It
6-s
6-7
7i
U
92
10*0
10-9
n-7
125
*3«
o 33
50*46
SO-I7,
55° 53
»4
»o
•5
I
4900
49-64
49-40
49-20
40 05
48 97.
,48-95
49-00
49*4
49-36
49-64
49 98
50-57
5081
47
51-28 .
5i->6 48
52-25
5
14
at
aS
45*7
45*»
44-1
42*6
40-7
384
36-0
33*4
30-8
28-1
25-9
239
5**73
49
48
46
53-62 «
54-00 >•
54*35
5 *'H
54-88
55 05
5517
55**3
55**4
55*19
55*09
54*95
54*77
54*55
54-30
54*03
53*74
22'
21
20'
20'
6
IO
I
*9
•J
*4
26
26
»7
aa
ao
16
la
7
o 37
4o' 74 „
40-61 *
40-48 * 3 I
40-36
20-5
22*6
*4*3
26
28
3*
34
37*5
40-7
43*9
47*o
50-1
53*o
55/7
i:
60-2
6i-8
63-0
63-7
64-0
63-8
»4
27
*9
3«
3*
3*
3«
3«
*9
*7
»4
21
16
la
7
40- 2|
40*16
40*10
40*06
40*06
*4o*io
40*18
40*31
40*47
40*68
4092
41*19
4*'49
41*80
42-12
42*44
4* '74
43-04
43*3*
43*55
43-75
43*9»
44*o4
44*12
44**7
44-i8
44*16
44*ii
44-o4
43-94
43 83
43*7"
43 S8
43-45
11
i
18 37
ff
67*0
67*6
676
h 1
o 42
34* 60
3449
6 56
>
«3
16
a*
a4
»7
64
63*5
61 *7
59*8
57*8
55*6
53*4
51*0
48*6
34*37
34*26
34* 16
34*07
3400
33*97
,33*97
34*oi
34*o9
34*22
34*39
34*59
34-83
35*io
7
37'4
367
3<5 'i
35*6
35*
35*o
35**
I" 4
:6-o
30
3»
3*
32
30
30
*7
z
2
5
7
10
11
12
*3
13
46-4
2
42-2
4C4
388
36-8
36*2
20
«4
*7
*9
22
20
18
16
12
8
6
3S"39 3I
35'7o:,
36*02
36-33
30
36$ *\
S7-i8 a6
J/ 22
37*40
3f*9
38*0
39*4
41*0
42*7
446
466
486
50*5
52*4
54*i
55*7
36
37'
38*6
39*8
41*2
42*6
44*o
46-5
47*6
48-5
49**
a
5
S
11
ta
14
14
14
13
ta
11
9
6
37*6o
37-77 ;:
37*9o
38*00
J f°i
38*08
38 08
38*05
37*99
37-92
37*83
37*73
37-61
37*49
592
59 # 9
'9
'9
17
16
»4
12
9
7
60-4
60-7
60-7
6o-6
6o-
59'
58-0
'57*3
Digitized by
Google
APPARENT PLACES OF STARS, 1882. 3*1
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
cPiscium.
R.A.
DecN,
j9 Andromeda.
R.A. Dec. N,
$ Ceti,
B.A. Dec. S.
1} Piscium.
R. A Deo. N.
Jan, 1
11
21
3*
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3*
Jane 10
20
30
July 10
20
Aug. 9
19
h m
o 56
50'39 ..
5027 ;
50-15 :
50-03
I
49*82
49'74 ,
49-69
49*68
4 49 ! 7 ° '
49*88
Sept.
18
28
Oct 8
ifrl
28
Nov. 7
17
Dec 7
17
27
_1L
50*04
5023
30*46
50*73
51*02
51* «
5163
5i'94
52*25
5* '54
52*81
53-oS
53*26
53*44
53-58
53*69
53*76
53* 80
5381
53-79
53*75
53*69
53*5i
53-51
53 -4©
53-»8
16
«9
»3
*7
*9
30
31
3«
3»
*9
*7
*4
7 15
21*8
2I'I
20*A
19*0
189
17-8
»7 # 4
17*2
175
■rf
19-0
20*1
214
22*9
24*6
26*4
283
30-3
3**2
35*8
37'4
38*8
40*0
40-9
41*6
1
3
5
9
11
15
17
18
»9
20
19
19
17
16
14
42'
42"
42'
42'
42*
4*'
1
7
41- 1
405
39-8
3STL
0*09
£' 9 l
8-76
8-59
8-44
8-30
8*19
8-12
8*09
8*n
6 8*i8
8*31
8-49
8-72
8-99
9-30
9-63
9.99
10-35
10-71
11-06
11-40
11-72
12-00
12*25
12-46
12*64
12-77
12-87
12*92
1294
12*92
34 59
56*8
56-2
55*3
54'*
52-8
51-2
49*6
47'9
46
44
43'
4*'
4i '
4i-
4
o
40*9
4i'3
42-0
43-1
44-5
46*2
12*88
12*80
12*70
12*58
12-43
12-27
48-1
50-2
5«-5
54'9
4
1
4
7
11
»4
17
19
21
*3
»4
»4
ll'l -
619 '3
6 4 *I "
21
66*2
68*i ' 9
69*8 "
7 r*j "
72*5
73-4
74*0
74-3
74*2
73-8
8 47
m
*5
I 4 44
8-62
8*50
8*37
8-23
8-u
8-oo
7*00
7-83
7*79
7-83
7-91
8-04
8*21
8-42
8*66
8*93
9*22
9-52
9-83
0*14
0*44
0*72
097
13
»7
21
»4
*7
■«9
30
3 1
3i
30
28
*5
1*19
i*39
1*76
1*82
1*85
1*84
•81
■76
•68
'58
11
i*47
33
33
34'
34"
35*0
34*8
34*3
33*6
32*6
31*2
29*8
28
26'
24-
22'
10
14
»4
»7
»9
19
si
20 *
«7*
»5*
139
12*1
io*6
3
•2
PI
rs
105
n-6
T2-8
14*0
15*0
i6-o
16-8
11*54
11*42
11*29
11-15
11*02
10 '90
10*80
10*72
io*68
10*67
10*71
'10*80
10*94
II'I2
11-34
11*59
12
13
»4
13
12
10
8
21-8
21*1
20*4
19*6
11*87
12
12
11
12*80 31
13*12
13*42
13*71
13*97
14*21
14*42.
14-59
14 73
14*84
14*91
'4'95
14*96
14*95
1491
14*84
H-75
14*65
14-53
3*
30
19
16
*4
31
17
«4
16*4
15*8
15-4
152
152
16*1
17*0
i8*i
19-4
2I*0
22*7
24-5
7
7
8
9
8
8
7
6
4
2
o
3
6
9
11
13
16
•7
18
18
26-3
*8-i [I
30*0
31-7
334
34'9
36*1
37-2
38*1
38*8
39'3
39*6
39'
39
39'
39'
38'
21
(nautical almanac, 1882.)
Digitized by
Got
o
322 APPARENT PLACES OF STARS, 188*.
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
a Eridani.
(Achcrnar)
R.A.
Dec 6.
> Piscium.
R.A DecN.
o Piscium.
R.A DecN.
ft Arietia.
R. A Dec. K.
Jan. i
ii
21
3»
Feb. io
20
Mar. 2
12
22
Apr. i
ii
21
May i
ii
21
3*
June io
20
30
July 10
20
30
Aug. 9
J 9
29
Sept 8
18
28
Oct. 8
18
28
Nov. 7
17
Dec. 7
*7
27
37
33
o /
57 49
ft
19*94
i9'59
19-25
18-92
18*60
18*30
18*04
17-82
17-66
17-56
17-52
17-68
17-86
i8*io
18*41
18-77
19-18 4'
I9"62 **
20^9
20-56
21*02
21-47
2I-89
85-0
84-4
«3
83-1
'8i-4 '?
79'* *«
76-6 * 6 1
73-6
70-4 3 *
^67-0 34
63* 38
36
59-6
| 2 . 7 34.
49'5 3
5 29
46-6 -
44-0
'41*9 "
'Jo-* '7
38
,39
38
22*27
22-59 3 *
22*85 a6
2305
40*0
l 4i*6
;«-7
46-1
12
■9 s
11
23-18
23-24
23*22
23-14
23-00
22-80
22-55
22-26*9
3'
21-95
21
62 M
.48-8
'51-8 3 °
548 3 °
578 3°
> ■«
6o*6 -1
'63-2 i6
■65*4"
»67*T '?
12
68-3
'69-0 7
h m
1 35
18*74
i8-£ "
18-49 ' 3
18-36 "
18-23
1811
18 '00
1792
17-87
17-86
17-88
"17-96
18*07
18*23
18*43
18*67
18*94
19-23
i9'S3
19*84
O /
4 53
it
Z ll 7
26-8 7
26' I I
*ss 6
1 39
24*9
24 4
24-0
23-8
237
23*9
M-'J
24-9
16
20
*4
27
*9
30
3*
30
IX
258
26'Q
28-2 Z >
7 15
17
18
19
18
29
31
33
35
20*14
20-44 3 °
20 '73 11
20*99
21*23
21-44
2I'6l
21" 76
21'87
2i*95
22*00
22*02
22*01
2i*97
21*92
21-84
21-74
21*63
*4
38-8
40-5
42*1
436
44-8
45-8
46-6
47-2
47'S
47'5
47*4
47'i
19
17
16
is
12
466
46-1
,455
44-8
44 *o
43'3
18
06
3
0*67
0*54
0-43
0-34
0*29
0-27
0*29
0*37
8 33
it
53'*
5i ' S o
51*8
511
49-8
493
48 9
0*49
0*64
0*84
i*o8
I'64
I
2
94
2*56
2-87
3 -i6
3-42
15
20
#
»4
*7
*9
30
3«
4 !'Z
48-6
487
49-2
49-8
50-6
51-8
S3*«
i' 7
o' 4
58-2
lo*o
3-66
3*88
4-06
4*21
4*33
4*42
4'47
449
4'49
4-46
4-40
4-32
4-23
4-12
3»
29
26
*4
21
18
IS
618
636
65-3
66-8 **
14
68-2
69 4
70*3
71-0
7i'5
71-8
7»"
71-
h in
1 48
f 8 3 ,
871
8-57 ;
8-43 r
n
581
57-4
8-28
8-14
8-02
7-92
7 1 5
7-82
,.7-84
7-91
8-03
8-19
8*91
9*21
9 ' 5 o
9'8
10-19
I0-50
io-8o
11*09
n*35
11*58
11*78
ii-94
12' 08
I2-l8
12*25
12*29
*7
30
3»
33
33
3i
12-30
12*27
12*22
12-15
12-05
"'93
20 13
56-5
556
54*6
53'7
52-8
521
516
JI-2
511
51-8
5**S
535
548
56-2
57-8
5
7
7
9
9
10
9
59
61
n«s
66*
68*
69-
7i'
*3
14
16
18
17!
18 '
18
17
16
»5
13
72'Z
ryz
74*0
74*6
10
8
6
75-0
TALL
Digitized by
Google
APPARENT PLACES OF STARS, 1882. 323
AT UPPER TRANSIT AT GREENWICH.
jO( x *
3 2 4 APPARENT PLACES OF STARS, 1882.
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
9 Arietis.
R.A.
Dec.N.
Ceti.
R.A.
DecN.
h Arietis.
R.A. DecN.
a Persei.
R.A DecN.
Jan. 1
11
21
3 1
Feb. 10
20
liar. 2
12
22
Apr. 1
11
21
May 1
11
21
3i
June 10
20
30
July 10
20
30
Aug. 9
19
29
Sept 8
18
28
Oct. 8
18
28
Nov. 7
*7
Dec. 7
*7
*7
—31
h m
2 44
60*50
60*40
60*27
60*13
59* 08
59*82
59*67
59*53
59-42
59*35
593 1
59-3 1
,59-36 „
59'47
59*62
59*81
60*04
60-30
60*58
60 -88
6l*20
61*51
61-82
62*12
62*40
62-66
16
62-90
63-11
63 29
* r4 f
63-58
63*68
63-74
63 77
63*77
6 3 # 74
63*68
6 3'5?
31
31
30
28
26
*4
21
18
16
13
H35
h
2
56
46*6
46-0
45*4
44'8
44-2
43-6
431
42*6
42*2
42*0
41-9
42*0
42-4
43-0
43-8
44'8
46*0
*p
48-7
8*45
8*36
8-24
8*10
7'95
7 # 79
7*64
7-50
7-39
730
725
7-24
9
12
»4
*5
16
15
»4
11
9
5
7-27
7-36
7 # 4<
7*6<
50*2
5i-7
532
54*6
12
13
14
15
*5
15
14
13
12
10
60-4
6o*6
6o*6
60*5
60*3
60-0
597
59'*
9
13
17
1-5 H
8-38 *l
8-66 "
JO
8*96
9-26 3 °
9'|6 »?
9-85
,0,, 5.6
,o :i 9
10 v
10-84
11*02
ii-i8
11*31
11*41
11-48
11-52
11*52
11*50
1-44
i* to
3 37
34*2
33*5
32*7
32*1
31*5
J1 '5
30-8
30*6
30*6
30*8
JI '«
31*0
32*4
335
34*6
36*0
37"4
390
40-7
42-4
44-1
45*7
H' 1
48*4
49" 5
503
50 9
51*2
51*3
51-2
50*8
50*3
h
3
54*88
54'76
54* 62
54*46
54*29
54* 1
53*9
S3-85
53*76
5370
5368
.53 * 7-*
5381
53-94
5412
49*8
49*2
48*5
47*8
47*2
46*6
46*2
45'8
9
18
1*
54-34 , 6
S4 'f2 »8
54*88
S5i8 3 °
3»
55 49
5S-8i
56*13
5644
56-74
57-02
57-28
57-5i
57*72
57 90
05
'7
•6
•8
"48-0
47-*
46-3
45-5
5826
58*32
58-34
58-32
58-27
? 8 '-9
o r
19 l6
n
5i-5 3
51*2 *
so-8 ;
50*3 5
47* o
47'9
48*9
50*1
5i
52'
54
55
56-
57'
li:
I
2
5
6
9
10
12
13
■3
14
13
13
12
11
10
6o*8
6i- 5
62-0
62-4
62-7
62*9
62-9
62-9
62-7
6* 5
*3
49 26
369
12
20
,3 0#I
61-27
61-28
61-14
14
■ss -
*3
Digitized by
Got
o
APPARENT PLACES OF STARS, 1882. 32
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
> Tauri.
R.A. Dec. N,
t Eridani.
R.A. Dec S.
19 Tauri.
R. A Dec N.
y Hydri.
RA DecS.
3 18
Jan. 1
11
21
3*
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3 1
June 10
20
30
July 10
20
30
Aug. 9
19
Sept.
18
28
Oct 8
18
28
Nov. 7
*7
27
Dec. 7
17
27
_1Z
29-84
29*76
29-65
29-51
29-36
29*20
29*04
28-89
28-76
28*65
28*58
28*55
28-63
28-75
28-91
39*10
2933
29 59
2987
30- 17
30.47
30-77
31-07
3136
31 '£ i
31-88
32-11
3**3*
32-50
32-66
32-78
32-88
32-94
32-97
32-96
II
IS
16
16
IS
13
II
7
3
s47'i
46*4
45'8
45*2
44'7
44*2
43'8
43 # 4
43*
43*i
2
5
6
12
16
19
*3
26
28
30
30
30
30
29
*7
*5
*3
43'
43'
43'
44'
46*
8 36
h m
3 27
47*6
48*9
50*3
51-8
532
56*1
57*3
584
59*3
6o*o
60*5
60*7
6o-8
60*7
60-4
6o-o
59'4
58*8
58*2
5^'9
13
H
IS
14
15
14
12
24*10
24*00
23*88
23*74
23-58
23*41
23*24
23*07
22*02
22*80
22-71
22*66
22*66
22*70
'22*79
22*92
23*10
23*31
355
36*7
37*7
38*6
39 . 2
39-5
396
39'4
38*9
38*2
373
36*1
34*6
33'°
31*0
29*0
»4
:i:k =
24- 68 3 °
24-97
•-5 '5* ,J
25-77
20-0O **
26*20
26*38
26*65
26*74
26-80
26'82
26*8l
26*76
2668
20
18
15
9 5i
26*
24*
22*7
20*7
i8*8
156
144
7
9
12
IS
16
20
20
21
21
21
20
19
17
is
12
29*35
29*22
29*13
29*08
29*08
29*24
29* 39
13*6
13*1
130
13*3
13*0
14*8
16*0
174
18*9
20*5
22*1
*3'7
25*2
26*5
h m
3 40
3052
30*44
30' 34
30*20
17
3°'°3 18
29*85
29*67
29-50
29*58
29*81 * 3
30-08 2?
J 2Q
30-37 »
30 -68
31*01
3133
31-65
3«
33
3»
3*
3*
30
3197
3*-*Z , 9
3283 a7
*4
33 07
3329
33-48
33 " 6 4
33 '77
33-87
33 93
33*95
33-93 6
33-87
O
23 44
n
25*0
25*0
24*8
24*6
24*2
23*7
23*1
22*5
21*8
21*2
20*5
19*9
I 9 *5
I9'2
19*0
I9'0
19*
19*8
20*4
21*2
22*1
23*1
24*2
253
26*4
27*4
28*4
29*4
30*2
31*0
31-6
32-1
32-6
33*0
33*2
33*4
335
33'S
h is
3 48
oi-97 68
66-io 11
65-37 8J
87
« 4 T 89
P' 61 88
tu «
79
61-09
60-37
59-75
59 23
58*84
,58-58
58-46
58 49
58*67
58-98
59*4*
59'97
7 S' S
78-3
77-5
76-1
74-3
72*0
69 * 4
(6*4
3
18
3i
44
55
65
73
60*62
61-35
8-BS
a:s**
6
66 69
i ri i
67*56
67-78
67-86
67*78
67-55
67*18
66 67
66-05
74 35
it
73*7
75'7
772
78*2
20
is
10
2
8
14
18
23
26
30
32
63-2
59-8 »
55-9 »
52-4 »
35
4 8 '9
45-6 "
n
ir i 19
34 '2 7
33.6 7
1
33*5
34*0
35*2
36-9
39'
4*'
2
9
45*0
48*4
,i-8
55*3
586
616
64-4
66-£
S
12
17
*3
27
3i
34
34
35
33
30
28
I
*3
Digitized by
Google
26 APPARENT PLACES OF STARS, 1882.
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day,
y 1 Eridani.
B.A. Dec. 8.
A Tauri.
R. A Dee. N.
Eridani.
R.A. Dec. S.
7 Tauri.
B. A. Dec N.
Ian. 1
11
21
3 1
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3i
June 10
20
30
July 10
20
Aug. 9
19
Sept 8
18
28
Oct. 8
18
28
Nov. 7
Dec. 7
«7
*7
37
h i
3 52
3329
33-21
33-10
34-96 *
6
8
8
8
13 50
48-1
49-6 ' 3
io-8 "
5«'8 ie
32^80
32-62 '
32-44 '
32*20
16
*5
32-IO
31-95 ;?
31-77 7
3
31-74 .
3 1 '75 6
31-93
32-08
32-27
32-49
32-74
*5
22
*7
28
30
3301
33-29
33'59
34-i7 a8
34*45 l6
34'7*
34-96 * 5
*3
35-19 M
35-39 „
3557
3S-7I
14
35-82
35-90
3595
35-96
35*93
35-86
32*2
36-1
379
397
4113
52-5
53-0
531
52-9
52-5
50-6
49' 3
47-8
46-0
{iS>
4«'7
39*5
37'3
35>
3*9
309
29-2
*7*7
26-5
25-7
25*2
25-2
*55
26-3
30-4
h m
3 57
21 45
45*49
45*43
45-33
45-20
45 o4
44-87
44-69
4451
44-35
44-21
44-11
44-05
10
»3
16
17
18
18
16
14
10
3'*
316
3'4
31-1
30-7
30-2
29-7
29*1
28-5
28-0
27-6
:i
44-0
44 -o<
,44 -14
44*28
8
«4
18
44-46
44-9* H
45-20
30
45-81 3I
4613 3Z
c 32
46-45 3
31
46-76
47-07 J 9
47-f 2 9
47-63 27
47-88
48-11
48-32
48-50
48-65
48-76
48-84
48-87
48-87
48-82
«5
23
21
18
IS
XI
8
3
27*2
27*0
26*9
27-0
27-5
27-8
28-4
29*2
30-0
31-0
32-0
33'0
34-0
34*9
35'7
365
37'i
37*7
3 J-i
38-5
38-7
38-9
391
39-1
39-1
39-1
10
10
10
10
9
8
8
6
6
4
4
h
4
8-27
8-21
8-u
7-98
8
•61
48
7-31
715
7-00
6-88
6-8i
6-78
6-78
683
'6-94
7-08
7-26
7-48
7-72
III
8-55
8-84
13
41
•68
'93
io* 16
10-37
10-56
10-72
10-85
10-95
11-02
1 1 '04
u-o
10- 9
7
»
508
521
53-2
54' 1
54-8
55-3
5J-6
55*6
55*4 j
54*9 !
54-» ,o
53 '•
12
52-0
506 '♦
49- ; s 9
472 9
»9
45"3 I9
43-4 J
41-4
395 * 9
18
37-7 l6
36-I
4-6 l *
33 4
32
5
j2*0
i-8
»"9
3*
33
34
35
i-
43':
44':
5
2
1
5
8
11
16
16
16
15
»4
h m
4 13
■
7*00
6-95
6-86
6-74 '
'5
£-59-
6-43,
6-25
6-o8 -
o r
15 20
4-
30- 1
*9*7 *
*9*3 :
29-0 *
5*9*
5-66
5*59
16
'J
11
5*56 ,
5-57 6
-563 „
5*75
"5
5/9° ,.
6 33 J
6-58 * s
28
6-86
7 -i6 3 °
7*46 3 °
i ** 31
27-0
26-7
26-5
26-4
26*4
26-5
268
273
27- 9
28-7
3
5
6
8
8
10
30
7'77
8-07
8-i 5 7a8
8-92 * 7
9'i8
942
9-63
981
9'97
10-09
10-17
10*22
10*23
I0-20
26
*4
21
18
16
12
8
5
31'S
3*"5
335
345
35'4
36*2
37'3
10
10
10
9
8
6
5
37*7.
379
379
37-8
37-6
37 - 4
3 n
36-8
364
36*0
Digitized by
Google
APPARENT PLACES OF STARS, 1882. 32
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
Tauri.
B. A. Dec. H
a Tauri.
(Aldebaran)
R. A. Dec. N.
p Eridani.
R.A.
Dec. S.
1 Aurigae.
R. A. Dec. N.
21
Jan. 1
11
21
3i
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3 1
|june 10
20
30
July 10
20
Aug. 9
19
Sept
18
28
Oct 8
18
28
Not. 7
»7
Dec. 7
*7
27
h
4
45-92
45-88
45-80
45-68
«'« ,6
«-37 l8
«'*9 ,8
45-01
44-84
44-69
44*57
44-48
44'44
44-45
,44-50
44*62
44' 77
44-96
45-19
45 '45
45*73
46*02
4 fi 3
46-64
j
5
12
15
19
*3
26
28
29
3*
3i
46-95
47^5 30
4755 f 8
47-83 2$
26
48-09
48-34
48-56
48-76
48-93
49- 06
49-16
49*22
49-24
49'*i
18 55
3-8
3-6
3'4
3*
2-8
2-5
2*1
i'7
1# 3
0.9
o-6
0-3
o-i
O'O
o-i
0-3
0-7
1-2
i-8
2'5
3-4
4'3
5-2
6-o
6-8
It
8-8
9-2
9*5
u
9-8
9 -7
9-6
9-5
9'3
il
h m
4 *9
8
II-36
11-32 ]
11-24
ii-ij "
«4
*°'99 l6
10-83
10-65
10-47
O /
16 16
H
51 3
4'9 I
4'5 J
4'2 *
10-30
10-15
10-03
9'94
9-89
9-89
, 9'94
10*04
0-18
0-36
0-58
083
17
is
12
9
IO
I 9
69
99
2-29
2-59
2-89
3-17
l-ti
391
4-n
4-28
4-42
4-52
4*59
4-61
£J3_
O
5
;o
*4
18
22
25
*7
29
30
30
30
30
30
28
26
25
23
20
17
14
10
7
3'8
3*5
3 o
2-8
2-4
2*1
1-9
I# 7
7
7
'9
3
•8
4
4*1
5"o
9*4
o-i
o-6
■1*0
I# 3
i*5
15
21-4
21*2
21*0
20' 7
20*3
20'0
SSUL
39
h
4
3 8 8 - 3 i
38-27
38-20
38-09
37*95
37-78
37-61
37'43
37-26
36-96
36-86
36-80
36-78
36-80
36-87
1
36'99
37*15
37-34
37-56
3 28
4
7
[i
14
17
17
18
17
16
14
23
24'
26'
27'
27'
28'
28'
3
k
3^
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38*92
39*20
39-48
39*75
40-00
40*24
40*46
40*65
40*81
40-95
41-05
41-11
41*13
41*11
*5
26
29
28
28
»7
«S
*4
22
19
16
*4
zo
6
28*2
27*9
27'4
26-7
25*8
24*7
23*4
22*0
20*
18-
16*9
152
13-6
12- 1
10*7
96
V 7
8-i
7*8
7*9
8-3
9-0
9*9
11 * 1
12*5
13*9
T 3
16*9
183
10.
Digitized by
=
h m
4 49
s
21-32
21*29 J
21*22 7
21*10 "
20-94
20-76
20*56
20-35
20*15
19*96
19*81
19*69
19*62
19*60
19-63
19-71'
32 5?
4*'7 ,
422 ;
42-7 :
43-0 •
7
43*2 c
43'2 a
43*o .
42*7 -
42*2
41*6
40*8 ;
39*9 '
*i
36*8
20*54
20-84
19-86
20*05
20-28 2 \
26
30
21-15 31
2I- 4 8 33
21*82 34
35
22*17
' 34
34
22*51
22*85
23*18 33
3*
23*50
23-80 30
24*07 * 7
24*32 * 5
22
H-54 1$
24-72 '
24-86 l *
24-96 I0
25-01
25-01
36-2
35-8
35*5
35'4
356
35-9
36-3
36-8
37*3
37"9
38-5
39-1
39-8
40-4
41-1
41-8
42-5
43-2
43 9
44'5
45 - i
o
328 APPARENT PLACES OF STARS, 1882,
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
f Leporis.
R. A. Dec. S.
a Auriga.
(Capelld)
R.A. Dec.N.
P Orionis.
(Rigel)
R. A. Dec* 8-
j9TaurL
R.A. DecN.
Jan. 1
11
21
3 1
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3i
Jane 10
20
30
July 10
20
A 3 °
Aug. 9
*9
29
Sept. 8
18
28
Oct 8
18
28
Nov. 7
*7
Dec 7
17
*7
— 17_
h
5
30-04
29-99
29-90
29-78
29*62
29 43
29*23
29*02
28*81
28*62 '?
28*45
28*31
66'
65
« 4 '
28*21
28*I5
28'13
28-I6
S
28-25
28-37
2853
28-73
28-96
29*21
29-48
29-77
30-06
30-35
30-64
30-93
31-20
31*45
31-68
31-90
32-08
32-22
32-32
3* # 39
32-41
3^'38
6
a
3
9
12
z6
20
*3
*5
*7
29
29
29
29
29
*7
*5
■*3
22
18
"4
10
.7
22 31
58-0
62-0 'J
63-6 l€
64-8
65-
66<
66'
616
59-8
57'7
554
527
50*2
47"7
453
430
41-0
39-2
37'7
36-7
36-1
36-0
36-4
3
3
44-6
49-6
52-1
54*
56;
»3
*5
*5
*S
*4
*3
h l
5 7
1
61-72
61-70
6l'62
6l«49
61-30
61-08
6o*8
60-5
45 5*
\U ■•
38-7 "
396
60*32
60*08 * 4
59-88 *°
59 '7i
»7
59* 60
59' 55
59 55
59 62
40*3
40*7
40*8
40*6
40*1
39'3
383
371
3?*8
34'3
32 9
3i*4
59*76
59'9°
60*20 *
60*49 * 9
60*81
61*17
6155
61*94
62-76
63-I7
63-57
63*95
64-32
64*67
64*99
65*27
i y i°
65*69
65*83
65-90
65*91
3*
36
38
39
4i
4i
4i
40
9
7
27*6
26-7
26*0
*55
25-1
25-0
H
27*0
279
9
30*0
3I 'I
32*6
34*0
35*4
368
h
5
1
54'
54"
54"
54'
53
53
53
53
53
53
5*
5*
5*
5*
52
5*'
1
5*
5*'
53'
53
53
53'
53
54
54
54'
55
55
55
'! :
56
5 6-
56'
5 6'
56-
'20
18
•12
•02
•89
•73
■11
*l8
•01
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73
-64
;s
62
: S
•00
19
■66
•92
•19
48
•76
04
32
I?
08
29
48
64
76
85
I 9
5
1
4
9
13
16
19
*3
*4
26
27
*9
28
28
28
»7
as
*4
21
19
16
la
9
4
8
»
26*9
28-5
30*0
31*2
20
16
15
33 # 5
332
32-7
319
30-9
20-7
28-3
26-7
24-7
22*9
2I-I
19*2
I7H
15*8
14-3
131
I2'0
12*9
14*1
15-5
17*2
19*0
20-8
22*7
24'5
26*2
h
5 / 8
52*76
52*76
52*72
52 63
52*50
52*33
52*14
51*95
51-75
51*56
5i*39
51*26
51*17
51*12
51*12
51--7
28 30
20*9
21*3
21*6
21*8
22*0
22*1
22*0
21-8
J 1 '^ ,6
5-43 ,0
51-63 *°
5I-8S*-*
16
5 2 *",S
5* -40
S*-7<> 3
53*01 3
33
S3 'I 4 33
53-67 "
54'oo "
54*32 3
3*
54-64 JO
54-94 '
55*3 J
55*49
55-73 „
5 I' 94 «7
56-II '
56*23
56*3I
5^-34
8
19*6
IQ'O
l8-0
17-6
17-3
I7-I
17-0
171
17*2
17*6
17*9
l8*2
i8*5
18-8
19-0
19-2
l9 'i
19*8
20-0
20-3
20*6
20*9
21'3
21-7
Digitized by
Googk
APPARENT PLACES OF STARS, 1882. 3*
AT UPPER TRANSIT AT GREENWICH.
Month
and
ft Ononis.
B. A Dee. 8.
a Leporis.
B.A Dee.
I Ononis.
R. A Dee. 8.
Columbae.
R.A. Dec. S
Ian. i
ii
21
3*
'eb. 10
so
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3i
ine 10
20
30
July 10
20
Aug. 9
*9
Sept 8
18
28
Oct 8
18
28
Nov. 7
17
27
Dec 7
»7
27
h n
5 *5
1
6l*OI
6i-oi °
60*97 4
60*89
is
60*77 m
60-62 !!
60*46
60*28
o ;
o 23
21*2
22-5 '-
23-1 "
h 1
5 27
33* 7f
33-76
33*7° ,
33*60
»6'
26'
*6'
6o'io
59-94
59*77
59 64
59*55
59*49
59-48
59*5*
,59-58
59-70
5986
60-04
23
60'26
60-50 \\
6*7
1*02 '
18
61*30 g
6l* 5 8 **
61*87
62*15
26-8
26-
26-
25
25*3
*4-5
23*5
22*4
21
62*42
62-68
62*93
63*16
«3-37 l8
63 ' 70 *
6H1 "
6388
6*7
5-3
4-0
2*8
i-8
i*o
o*s
0*2
0*3
I
3
5
6
8
10
11
13
15
15
*4
13
12
10
4-6
6*o
7'5
8-9
5
3
1
4
6
9
11
13
14
IS
H
IS
33-47
3330
33*ii
32*91
32*71
32-52
32*35
32*20
32*08
32*01
31*98
31*99
32*04
3215
32*29
32*46
32*67
32-90
33'*5
33'42
33.70
35*0
37-i
39*0
40-6
41*9
42-9
43-6
43 '9
43'8
43
42
41*8
40*5
39*0
37*2
35
33'99 '
34-2§
34*56
20-4
34*84
35*ii
35'3^
35 '59
35*79
35*96
36*10
36*20
36*25
28
*7
»5
»3
17 54
h
5
15*' 79
15*80
15 7o
15*68
30
8
12
15*56
1542
1507
33*1
30*6
28*4
26*2
24*0
22*0
20*3
18*9
17-8
16*9
17-1
14*89
1471
14 56
•4-43
»4'33
14*27
14-26
14*28
p 14-4*5
14*61
14-79
15*00
»5**4
15*76
5*
53
53
53
53'
53'
53'
5*
5*'
5''
5°'
49'
8
9
20*4
22*2
3:
24*3
26*6
29*0
3i-4
15
18
21
*3
24
*4
23
33*7
16*04
16*32
16*60
16 -88
17*15
17*42
17*67
17*90
18*11
18*30
18*45
18*56
18*63
28
28
28
28
27
27
«5
*3
o 1
1 16
48*0
49*3
50-5
5i-5
h m
5 35
24*8
47-9
46 4
44-9
43*5
42*0
40*7
•5
•4
376
37*1
36*9
36*9
37'3
38*0
38-9
40*1
47-5
24*89
24*86
24*77
24*63
24*46
24*25
24*02
23*78
23*53
23*29
23*07
22*88
22*72
22*60
22*53
22-51
22*C 4
22*62
22*74
22*90
23*10
23*34
23*60
23*89
24*19
24*50
24*82
2513
3
9
14
17
21
»3
*4
*5
*4
22
19
16
12
7
2
3
8
12
16
*4
26
29
30
3i
3*
3i
3'
•15-73 J
26*01
26*26 as
26*79
26*88
26-92
o
34
*
24-8
27-6
30-1
32-*
339
35-*
36- 1
365
365
36*0
35*i
33*8
32*1
30-1
27*8
25*2
22*5
19-4
i6* 5
13*7
ii*i
65
4*7
3'5
2-7
24
2-7
36
5-o
69
Q*2
28
*S
21
17
13
9
4
S
9
13
17
*3
16
27
3i
29
28
26
»4
22
18
15
••3
*7
II
'4
■i-
20 * 9
23-9
31
35
Digitized by
Google
33 o APPARENT PLACES OF STARS, 1882.
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
k Orionis.
R.A.
Deo. a
a Orionis.
B.A.
DecN.
9 Orionis.
B.A. DecN.
Geminorom.
B.A
DecN.
Jan. 1
11
21
3i
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3 1
June 10
20
30
July 10
20
Aug. 9
*9
Sept.
18
28
Oct. 8
18
28
Nov. 7
17
27
Dec. 7
17
27
.37
h
5
8
II
II*
II*
II
II
II
II
II
10
10
10
10
10
10
10
10
s 10
10
10
10
10
II
II
II
II
12
12
12
12
13
13
13
•3
14
42
o 3
84
8 ' I
73
12
61
■46'!
9 4*
if
52-3
S4'i
55'7
57'*
5 48
o I
7 22
5»'3
18
16
M
12
59*2
29 17 59*8 6
-~ I9 6o*i ^
10 I9
»9
17
■42
■31
23
■20
'21
60*2
6o*o
59-6
58-9
56-8
J ](tU
,55*4
53*9
5
'50-2
■26
48 3 T - -r
•65 ,7 4 6 5
20
•8S 2J 44'8
'°7 J4 43-x
57 40-3
*7
■84
■«SIf-7
■40 38-5
•69*938-6
28
'97 2? 39
24 2 J4°'°
49
49-
49*
49'
49'
49'
48 ■
48'
48-
48'
48'
48'
48'
47'
47'
47'
Oii
8
'9
48
51
13
•73 4 42-8 IS
22 l8
•95 44*6
10 r IQ
•14 ^46*5 *
•41 50-5
50-5
t 20
S3*
,48'
48'
48'
48'
48'
48'
49'
49'
49'
49'
50-
50-
5°
S»
5'
S»
Si
52
52
52
52
42
45
43
37
27
13
97
79
61
44
28
'4
03
97
94
95
01
12
26
43
U
11
37
65
93
22
51
•80
•08
34
59
•82
03
'21
34
44
49
«4
16
18
18
»7
16
»♦
56*0
551
543
536
52*6
52*3
52*1
52*0
52*0
I
3
5*'
52
5*
53"
53
54
*3
25
26
28
28
29
29
29
28
26
*5
23
21
18
'3
55-0
56*0
56-9
57*9
58*8
6o-6
61-3
61*9
62-3
62'
62'
62 •
6r
60'
60 •
59-1
58-0
56-9
55-8
54-8
53*9
I
2 '60
2*64
2*64
2*59
2*50
*'37
2-21
2*03
"*2 5
1*07
1*50
1*36
1*25
117
i-ij
1-14
1*19
1*29
1-43
i-6o
47*
46'
i*8o
2*03
2*28
2-54
2*82
3*n
3'4*
3-71
00
2
is
10
32
a
23
*5
26
28
29
30
30
29
29
29
27
25
22
19
16
14 46
46*0
45-8
45-6
45"5
45*4
45'4
45'4
45 - 4
45 '5
4 I' 7
46*0
46*3
46-7
47-2
47*7
48*2
48-8
49'3
49'7
50*0
50*2
50*3
50*2
49 '9
49'5
49 'o
48-4
47'7
47-0
46-3
45-6
45*o
44'5
6 s 7
47*9*
47*97
47*97
47-92
47-83
47-70
47-36
47*17
46-98
46-80
46-65
46-53
46-44
46-40
46-40
46-45
,,46-54
46*69
46-86
47-o6
4r*9 J
47*55 2 ,
47-83
48-12
48-42
48*73
49-04
49 '35
49-66
49-96
50-25
50-52
50-76
50-97
51-14
51-27
5i_-35
29
30
31
31
3*
3i
30
29
27
24
21
*7
13
8
22 32
T7
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7'4
7-2
7-0
6-8
6-7
6-6
6-6
6-7
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1°
6-9
I' 7
6-i
5*7
54
H
4-6
4'4
4'4
Digitized by
Googk
APPARENT PLACES OF STARS, 1882. 331
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
I* Geminorum.
R.A. DecN,
a Argus.
(Ganopus)
R.A.
DecS.
y Geminorum.
HA. Dec.N.
{ Geminorum.
R. A Dec. N.
Jan. 1
11
21
3i
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3 1
June 10
.20
30
July 10
20
30
Aug. 9
19
h m
6 15
5*'99
52-05
52-07
52-03
51-94
51-82
51-66
51-48
51-29
51-10
50-76
O
22
it
,5-6
i S -6
15-6
>5"7
15-8
T 9
lO'O
i6-o
Sept.
Oct. 8
18
28
Not. 7
17
*7
Dec. 7
17
*7
37
50 64
50*55
50-50
50 49
50-53
50-62
V76
50-92
51-12
5IJ5
51-60
51-87
52-15
5* 45
52- 76
53-07
S3 "39
53 70
54-00
54-29
54' 57
54-82
5503
55-21
55 35
55 43
34
O
O
I
6 21
5* 37
155
'5*3
151
15-0
14-8
14*7
H'7
H'7
*3
*5
27
28
30
3*
31
32
31
30
29
28
*5
21
i8|
"4
8
14-7
148
14*8
14-^8
14-8
14-7
H'5
14-2
13-9
13-1
12-7
I2'3
12-0
u-7
u-6
u-5
22
22
22
22
22
21
21
21
20
20
20
19
19
I
I
18
18
•18
18
19
19
19
20
20
20
21.
21
22
22
22
23
23
*3
23
23
23
'57
'54
'02
'74
'4*
■07
36
'35 I
•00 "
■68 3i
39
6i-i
3 6 4 -6
"67-8
7 70-7
H
28 73*2
75*2
76-8 *
77-8 *
6 30
78-3
78-4
76
14
7*
70
'4
I
75'3
73'
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11
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19
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68-5 * 6
19
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62-6 3 °
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„ 3*
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01
17
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5 6-
56
56
56-
55
55"
55'
55
55
55
54
54
54
54
54
-54
54
55
22
29
32
29
22
11
96
79
61
10
13
16 29
.48*7
148-3
3 47-6
7
,,475
1S 47-4
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7 47'3
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, 7 47-3
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47'7
82 6+Z'
88 6 48
99 " ■-
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2
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14 I5 48-8
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11 J 24
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13 J7 43
90 J, 41
31 * 41
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11 ; 8 4*
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6
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84 35
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8
12
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84
84
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46-9 * 3
28
49-7 32
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60 o 3
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63-6
67-1 35
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55
56
56
57
57
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58
58
58
58
59
59
59
59
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45-0
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44*4
43'8
43'3_
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6 38
42-49
4* '57
42*60
42-58
42-52
42-11
18
18
41*93
4i-75
41-58
41-42
41-29
41-19
41*12
41-10
41*11
41-17
(41 -.61
4I-4I
41-57
4I-76
4I*98
42*22
42-48
4* # 75
43-04
43 '33
43* 6 3
43'93
44-22
44-51
6
9
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16
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22
24
26
27
29
29
30
30
29
29
13
v
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76
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7'5
76
7*7
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44-78
45'°3
45-45 I9
45-60
45-70
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99
90
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33 a APPARENT PLACES OF STARS, 1882.
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
a Canis Majoris.
(Sirius)
R.A
Dec. 8.
$ Canis Majoris.
R A Dec. 8.
1 Canis Majoris.
a. A. Dec d<
y Canis Majoris.
B. A. Dec. S.
Jan. 1
11
21
31
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3 1
June 10
20
30
July 10
20
A 3 °
Aug. 9
*9
29
Sept 8
18
28
Oct. 8
18
28
Not. 7
*7
Dec 7
17
27
h m
6 39
•
;9*2o
59-25
59-26
•9*22 '
13
59-13 13
*8-66 ,8:
16 33
25-8
28 2 **
30 4 »•
* T 20
32-4
19
!-<* X9
■•91 '*
>7'76
1^4 *;
i7 55 J
>7So s
34-1
36-6
37'4
»7
»4
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37-8
379
37*7
37-2
11
57 5* I
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36-4
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3
3
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60-91
61-14
61-51
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6l-6 4 8
6l "]Z
•8
.glO
•1 'J
. 8 17
6 a *
*s
6
1 a *
h n
6 48
44*77
44-84
44-86
44*83
4476
4465
44-50
44'33
44'iS
43-96
43-61 ,7
43-46 „
43'34 ,
43-26 •
4321 5
43- 20
43*3
,43*30
43-40
43-54
43 "7*
43*90
44-12
4436
44-62
44-88
45-16
45-45
45 74
46 03
46-31
3
7
o
»4
»7
«9
22
*4
26
16
*8
29
*9
29
28
26
4 6 '57
47-02 "
47-21
14
47-35
47'44
»9
II-
»
37-5
39*7
41-7
434
46-2
47-2
479
48-2
48-3
48-2
47-7
47*o
46-1
449
43'5
41 9
403
36-6
34-8
33-1
316
30-3
29-2
28'2
28'2
28*6
29-4
30*6
32*2
36-2
38-4
40-7
43-0
45'»
53
22
20
h n
6 53
6i , -6 7 (
61-73
01 '69
II
61 -59
61-45 ,4
61-28 l l
6i-o8
28° 48
51-4
54 '4
596
61 '
65-
66'
60 -86
60-64
60-42
60-22
60-04
5988
59-76
5968
59-64
59-64
59-68
59-78
6o-o6
60-25 9
c J 22
60'47
60 • 7* *,
6l'27
6i-57 3 °
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6i-88
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62-50 3I
fia^ A 2 9
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62*79
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63-33 „
I 3 ' 55 '«
63-73
13
63-86
63'94
67-0
67-2
67-1
66-5
65 -6
643
62-7
6o-8
56*4
53'9
51-2
48-7
46-3
441
42*2
40*6
39-4
38-6
38-9
39-8
41-2
43-0
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50-8 •»
53-8 3 °
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56-8
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6 58
27-56
27 64
47-67
27-65
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44-7
46-9
48-9
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22
20
27-58
27-47
2732
27-15
26*96
26-77
26 59
26-41
26*25
26-13
26*03
25-97
*5'95
25-97
26-03
26*12
26-25
26*41
26-59
26-80
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^•03 a6
27'2r
27-
2
" 28
28*12
28*42
28-71
28*99
II
15
17
19
19
18
18
16
12
10
6
*7
if
8
17-56
87*84
50*6
52*0
531
539
54-4
54*6
54*4
54*0
53'3
52*3
51-1
49-6
48-0
46a
443
42*2
40*2
3 «' 4 «7
36-7 4
353 *
2
2
4
7
10
12
15
16
18
19
18
29-26
29-51
29-73
29*92
30*07
3Q'*7
27
»5
22
19
15
34'i
33*3
328
32-8
33*2
34-0
35-2
369
38-9
41-1
43'4
*3
*5
45 '9
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* 8 '4 2d
50*8 * 4
Digitized by
Google
APPARENT PLACES OF STARS, 1882. 333
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
& Geminorum.
RA Dec N.
p Canis Minolta.
R. A. Dec. ft.
s" Geminorum.
{Castor)
R A Dee. N.
a Canis Minora.
(Procyon)
RA Dee.N.
,Jan. 1
11
21
3«
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3 1
Jane 10
20
30
July 10
20
A 30
Aug. 9
'9
Sept.
18
28
Oct. 8
18
28
Nov. 7
»7
- * 7
Dec 7
17
«7
37
h ■
7 13
8
7*18
7-30 "
7*37
7* 39
7-3S
7* *6
r 14
6-99
O
22 I
44*7
445
44*
44*
44' 7
44*9
45**
45*5
45*7
45*9
46*1
6'8i
6-62 * 9
6-44 T _ .
6*27 ,7 4.6'2
IS
6'12
5*99 n
500
S-«5
5-84
S-87
»5
6-3? "
6-57 *°
6-79
»$
*7
7 !° 4 -,
7-io*9
7-90
46*2
46*1
46*1
46-0
458
45*7
45*3
,4S'i
,44'9
44'7
44*4
8'2I
853 31
sis- 3 *
31
9*76,!
10*0
10*21
44-1
43*7
43-2
42-6
4i*9
411
4o*3
39*5
»3* 7
io*4S ..
1060 1$
38-8
38-1
36
36-4
30'2
h n
7 ao
47 *& <
47-70
831
ft
4-2 *
23-3
22*5
47-67
47*59
47-48
47*34
8
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14
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21*9
21-5
21*2
21*0
47*17
47-00
46-67
21
21
21
21
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46-52
46-40
46- 31
46-25
46-23
46-25
46-30
46*53
46-68
46-85
47*«»5
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"rt 3
*8
30
h 1
7 *7
7*03
7-17
7-26
729
21-7
22'0
22*4
22*9
23-5
24-1
4*7
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•*5'9
26*5
27-0
27-3
27-5
27-5
27-3
26*9
7-26
2-o6
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30
11
94
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61
&
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4 5'2 S
48-65
49-25 3
49 ' I 4 27
49-81 a7
50-06 **
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50*29 •*
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50-47
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24-5
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22'I
16-8
15*7
14
14
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5*75
590
6-07
6-27
651
6'77
7*05
7*35
7-67
8-01
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8-70
905
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39*3
40-0
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40-9
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40-8
40*4
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10-50
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35*5
34*6
33*7
32-9
32-0
31-1
30-2
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27-8
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26*5
26-I
25-0
258
25-9
20-2
h n
7 33
9*89 x
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10*09
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10*10
10*03
9-92
9 - 78
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9-28
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8-65
8-65
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871
8-88
9*02
9*18
937
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10*07
10-34
29
30
29
10*62
10*91
11*21
11*50
29
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19
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23*4
22-2
21*2
20*4
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19*1
19*0
19*0
19*0
19*2
19*5
I 9 *9
20-4
21*0
21*6
22*3
23*0
237
25*1
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20*2
26*4
26*4
26*3
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23*3
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334 APPARENT PLACES OF STARS, 1882.
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
ft Geminorum.
{Pollux)
B.A.
DecN.
£ Argua.
R.A. Deo. 8.
6 CancrL
E.A.
DecN.
15 Argfa.
R. A. Dee. S.
Jan. 1
11
21
3*
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
31
June 10
20
30
July 10
ao
Aug. 9
*9
Sept.
18
*8
Oct 8
18
28
Nov. 7
»7
Dec. 7
17
*7
—17
38
h m
7
8
8*32
8-47
5'f 7
8-6i
253
25-4
>n 7 ,
859
I 5 *
8*41
826
8*09
7-90
7-70
7 # 5*
735
7*20
7-09
7*oi
698
698
7-02
7* 10
11
15
*7
19
so
18
17
15
II
8
7-23
739
7 # S7
7*79
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8 *°3 *
8-29 a6
8- 5 8 29
8-88 3 °
28 i£
26-6
27'2
27-8
28*4
28*9
29-3
29*6
29*8
29 a 8
2 9 '7
29S
29-2
9-19
9-86 "
10*20 34
33
3a
10-53
11-40
11 -63
ii-8i
28-8
28
27
27'2
26*5
259
25'2
24'4
23-7
22*9
22*0
2I'I
20'2
3
4
'7'5
16
16'
15
15'
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liS-
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7 44
8
22*25
J 19
22-37
22-44
22-45
24 33
57-2
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65-5
h 1
7 , s6
18-91
19-03
19-09
o
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14-2
H'3
14-5
14-9
22-41
22-33
22*20
22-04
21-86
21-66
21-46
21-27
21*09
20-93
20-79
20*69
20*62
20*58
20-58
20*62
6
20-70
20*81
20*96
21-13
4
s
13
16
iS
20
20
19
18
67-8
69-9
71-6
72-9
73 '9
74'5
74*7
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4
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8
11
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17
20
74-0
73-2
72-0
70-6 ,4
17
68-9
66-9 ao
64-9 *°
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21-33
"•f 6 26
28
29
30
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24.39 3
19
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21-82
22*10
22-39
22*69
23-00
23*31
23-62
60-3
58-1
56*0
54-*
52-6
50-6
50*2
50-3
50*9
52-0
53-6
55*6
58*0
6o*6
63*4
»4
22
21
18
16
12
8
4
19*10
19*05
18-95
18*81
18-65
18-28
18*09
5
10
14
16
18
19
19
17
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17-65
17-56
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66-4
17-52
17-51
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17-70
17-84
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18-2-0 ,9
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19-24 9
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19-88 "
20*22
20-56
20*90
33
21-23
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21*82 a8
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22*05
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22*25
17-9
18*4
18-8
19*0
19*2
19-2
19*0
18-8
18-4
18-0
T S
10-9
16*2
15-5
H'7
139
2-7
2-7
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2 23
33-44
3366
3369
33-67
33-61
33-50
3335
33-18
33-00
32*80
32-61
3**43
32-27
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32-01
14
31 •(
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31-87
31-89
57
62-6
65 - 4
68-o
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28
26
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21
18
15
76-8
77
77'
77*
ISI'9SI
32 05
32*17
3*'33
32*52
32-73
32-97
33-24
33-53
33*83
34*14
34*45
34*76
35*06
35*34
35-58
35'79
35*95
10
12
16
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21
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29
30
V
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31
30
28
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75'7
74*4
728
71*0
69-1
67-0
{Stf}
62*5
60-5
58-6
57 «
55-8
54 # 9
54*5
21
20
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13
9
4
16
54*5
56-1
57-6
£i
64-4
67-1
70-0
73-0
Digitized by
Googk
APPARENT PLACES OF STARS, 1882. 335
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
j3 Cancri.
B.A. DecN.
vi Cancri.
R.A. DecN,
y Cancri.
B.A. DecN.
Hydra.
R. A. Dec N,
8 10
Jan. 1
11
21
3i
Feb. 10
20
Mar. 2
12
22
Apr* 1
11
21
May 1
11
21
3i
June 10
20
30
July 10
20
30
Aug. 9
*9
9-25
9-41
9*53
9*60
9*61
9-58
9-50
9*39
9 3*
44-0
42*8
41*8
41*0
,40-4
1 40 -d
8 39-8
39*7
925
•09
•92
876
Sept.
18
28
Oct. 8
18
28
Nov. 7
17
HP. 27
Dec. 7
17
27
37
8-6i
8*48
8*28
8-23
8-20
8*21
8-26
, 5*34
8-45
8-58
8-74
8-93
9- 14
9-38
9-63
9-91
10*20
H
16
17
16
15
13
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9
5
3
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io*8i 3I
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11*70 *\
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11
12
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39-7
399
40*1
40-4
40-7
41*1
4i-5
41-9
42-5
42*8
43'3
43'7
44-1
44'5
44-8
44'9
44*9
44'7
44*4
43-8
43-0
42*0
40*8
39*5
38-1
36*6
35-0
336
32*2
31*0
h 1
8 25
55*60
55 '74
55-«3
55-86
55-84
55-78
5567
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55-38
5521
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20 50
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17
16
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ia
10
54-88
S4'73
5461
54-Si
54'44
54-4I
54-41
54*44
•* S4 T
54-6i
54*74
54-90
55-o8
55*29 H
5553 ,2
55*79
a8
5f '°7 J
56-37
•69
56
57-01
• 33
£8 -
58-46 * 9
58-51
58-73
5-6
61
6-6
7-0
7-6
7 'Z
7-8
7 1
76
7*4
72
6-8
6-4
5*8
5*2
4*4
3*5
2'5
i*4
O'
89
7-6
6-3
50
3 1
2-8
2'0
i-4
8 36
8
29^0
2991
30*06
30'l6
30*21
30*20
30*I4
30*04
29*9I
•9 % 59 \l
29*42
29*26
20*11
28*98
28-88
28*80
28 76
28*75
28*77
28*83
'28*92
29*04
29*19
17
29*36
29*80 [I
30*05 *"
30*53
30-63
3
30*94
3127
31*60
31*93
32*25
3* '54
32*80
33'03
30
3»
33
33
33
3*
29
26
23
21
18*9
18-4
181
18*1
l8'2
T s
189
19*4
20*0
20*5
21*0
21*4
21*8
22*1
22*3
22*4
22*4
22*4
22*2
21*9
21*6
21*1
20*6
20*O
53
'7-3
i6'3
15-1
138
12*4
ii-o
*7
•4
I'*
6-2
5*3
4-7
9
10
10
ia
»3
»4
'4
'3
13
13
10
h
8 40
33*83
34-02
34 16
34-26
34 *3<>
34-30
34*25
34-i6
3403
33-89 „
33*74 ,|
33*58
48-1
47-5
469
468
46 9
47-i
47*4
33'43
33-29
33-^7
33-07
33-00
32*96
32-95
32-96
33-00
/»•«•>
33-19
33*32
33*48
33*88
34-11
34*37
34*65
34*94
35*25
35*56
36*l6
36*44
36*69
36*90
47'7
48*1
48*6
49*1
10
'3
16
*9
21
*3
26
28
29
3i
3*
3'
29
28
*5
o /
6 50
tt
52
51
49'7
50-3
50*8
51-3
51-8
{«>
52*7
52-9
52*9
52*8
52*5
51*9
511
50*1
48*8
47'4
45'8
44 1
42*4
40*7
391
3Ti
10
"3
•4
16
17
17
17
16
15
Digitized by
Googk
336 APPARENT PLACES OF STARS, 1882.
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
Urate Majoris.
R.A. DecN.
a Cancri.
B.A. DecN.
k CancrL
B. A. Dee. N.
83 CancrL
B.A. DecN.
Jan. 1
IT
21
31
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3i
June 10
20
30
July 10
20
Aug. 9
*9
Sept.
18
28
Oct. 8
18
28
Nov. 7
*7
Dec. 7
*7
*7
37
8 51
IO
10
10*82
10*96
8-
48 29
56
3
11*03
n*o
10
10*83
10*64
10*42
10*18
993
9*68
9-44;;
9' 2 3 ,8
9-05
8*90
8-8o
8*74
873
ll 7
8*8?
•8*99
9*i<
9*37
9*63
992
10*25
io*6i
10 99
11*41
11*84
12*28
12*72
13*14
*3'54
13*90
14*21
15
«4
"7
21
26
»9
33
36
38
4*
43
56*7
57*6
58*8
60*3
62*0
63*7
65*5
67*2
68*7
70*0
7 i*i
71 * 9
72*3
72-4
72-1
71-5
70*6
69*4
S' 9
66*3
64*5
62*5
60*3
5 8-i
56-0
53-8
49-6
47'7
459
44 - 3
43-0
41-9
41-2
40-9
40-9
41-3
42-1
h m
8 52
436
4*51 *
4I2 "
. 6
468
4-65 \
4'57
4-46
432
4*17
4*01
3-86
3-72
3'59
3 "49
3 4*
337
3*35
3'35
3*39
3*45
y \l
3-68
383
4*oi
4'22
4'4S
4-70
498
5-28
5 '59
5-91
6*23
654
6-83
7-09
73'
14
16
15
1*
13
»
o
4
6
10
«3
>5
18
21
»3
»S
18
i<-
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3*
3*
3«
*9
16
o
12
37-6
36-5
35'5
34-8
34'3
34- 1
340
34-i
34'*
345
34'9
353
J l' 7
36-1
3 6
37"*
37 '3
37,8
38*1
38-3
38-4
38-4
383
38-0
37/5
369
36-1
3S*i
33*9
32'6
jri
18
II
10
7
29*5
27*9
26
24
*3 - 4
22*2
23*51
23*72
23 89
24'OI
2407
24*09
24*06
2399
23*88
23*75
23*60
*3'45
23*30
23*16
23*04
22*93
13
*5
15
*5
X4
12
II
22-85
22*79
22-76
22*76
22*79
22*85
'22*94
23*05
23*20
23*37
23*57
23-79
24*04
24*31
24-60
2491
25*23
zy ll
25*86
26*15
26*4:
266
3
6
9
11
15
'7
20
22
«5
*7
29
3i
3*
3»
3i
29
*7
*3
II
20*3
100
18*0
17*2
16*7
16*3
16-1
16*1
16*3
16*6
16*9
17-3
17*7
18-2
18*6
19*0
•9
l 9
20
20'
20'
20'
20-
20'
20*6
20*2
I
I
17*8
16-6
15*2
13*7
12*1
10*4
8*8
7*2
5*7
4*4
12
h
9
26-01 /
26*20 I9
26-33 x *
l8°II
63*4
62*5
61*9
61*5
26-41
26*44
26-41
26-35
26-25
26* 1 x
25-08
25*83
8
61*4
61*4
3 4 17
62*1
25*67
2552
253
25*2
10
12
15
15
16
15
■3
11
25*19
25*12
25*09
25-08
62*5
63*0
63*6
64-2
64*7
65*1
655
658
66-o
66-i
66-2
661
25-09
25-I4
25*22
*533
«4
*5-47 I7
2583 •»
26-05
26'30
26*57
26*87
27* 19
27-5I
27 84
28*17
28-48
28-76
29-00
*7
30
3*
3*
33
33
3i
28
*4
66-o
65-7
6 5 '3
64*7
64*1
6 3'3 „
*'S 11
61*2
13
59f 14
5«'9 l6
S5i 16
537 l6
S° 6 14
49*2
II
48 •« 10
4r°_
Digitized by
Google
APPARENT PLACES OF STARS, 1882. 337
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
1 Argils.
B.A. Deo. 8.
t Hydras
R.A
Deo. o.
$ XJram Majoris.
R.A. Deo.N.
oLeonis.
R.A. Dee.N.
Jan. 1
11
ai
3 1
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3 1
June 10
20
30
July 10
20
A 30
Aug. 9
19
Sept.
18
28
Oct 8
18
28
Nov. 7
*7
Dec. 7
17
«7
13
h
9
58*77
59-04
59-23
59*33
59-36
59-30
59^7
58-97
58-72
58-42
58-09
57-74
57-38
57-02
56-67
56-35
56-05
55-78
55'56
55 39
*7
*9
10
3
6
13
20
*5
30
33
35
36
36
35
3*
30
*7
22
17
58 46
It
47-0
50*6
54'4
58-3
21
62*1
65-7
69*0
72 • 1
74-8
77-0
788
8o-i
80-9
8l'2
81-0
80-3
79-1
77 '4
9
49*34 ai
49 11 13
7
49'93 3
49-96 ;
«'?4 6
49-88
49-7
49-6
49 55
49-40
49-25
4 ?'J
48-98
48-86
55-*7
,55"
55 *3
55-30
55*44
55-05
55-93
56-27
75*
73'
f 4 '
6i-
58'
55
53'
56-66
57-10
S3*
51
5 *'% 49
59-o6 "
59 53 J^
59-96 43
37
60*33
60*63
5^5
50-1
49*4
49'*
49*7
50-8
52*6
54'
57'
6i-o
17
20
*4
*7
29
33
29
29
26
23
19
7
2
5
3 3 64-5
48-76
48*69
48-64
48-61
48-61
48*64
48-79
48-90
49-05
49-22
49-42
49*66
49-92
50-20
50-50
50-81
51-12
51-43
5172
51*99
5*'*3
»3
15
"5
•4
13
12
10
8
ft
O'l
2-4
4-6
6-5
8-3
9'9
II-2
12*2
13*0
13-5
13-8
I3-9
I3-7
tyx
12*8
12*1
9
»3
22
19
18
16
13
h
9
■
60-17
60-50
60*78
60-98
24
o
52 12
it
31*0
31-9
33 M
34-6
61*10
61-14
61*10
61-00
3 f'
3«-
h m
9 34
53 36 I
53 56
53-7*
IO 25
60-84
60-63
60-39 * 4
60-12 a7
27
59 85
59-58
5933
59- 10
11
15
"7
20
*4
26
28
3©
3"
3i
31
29
»7
»4
6-8
5'6
4*5
3'4
2*6
2*0
i-6
i-8
5891
S l' 7 J
S l' 6 t
58-58
58-56
I 58-65
58-78
58-95
59*7
59 43
59*74
4
4
4°-4
42-4
3
•o
47*4
48-5
49*3
49-6
49-6
49-2
48-4
47*3
45'9
44-2
ao
so
ao
'9
«7
'4
11
*.- IS
4'9
6-6
3
«7
8-s "
io-S "
12-8 "
*3
•5'
'7-4
»3
42*2
40-1 "
35-1 7
*s
32-6
2C
30-I *
276 »5
25-1 aj
60*09
60*47
60-89
6133
46
61
62*2
62-7
63-1
40
63*58
i05 37
*3
22*8
20*6 "
18-6 ao
16*9
47
45
»5'5
144
13-8
13*6
13-8
*4-5
53-80
53 85
53*f5
53-8x
53 73
5363
53 50
53 36
53-22
53-o8
52-05
5284
52-66
52-61
5»*59
5**59
52-61
52-66
■1
5* '74
30- 7
•3
•1
27*2
26-5
26-1
259
25-9
26*1
26-4
26-7
27-2
27-6
28-1
28-6
29*1
29-6
30-0
30-4
30-7
309
3*M
3I-I
31-0
14
52-85
52-99 I?
53* if, I
53 36
as
53|8 , 6
54-12
54*4* 3 °
3»
11% >■
29
56-22 *
30-8
303
27*8
26*5
251
23-4
21*7
3:?
16*4
H'7
IT!
22
(nautical almanac, 1882.)
Digitized by
Google
338 APPARENT PLACES OF STARS, i88s.
AT UPPER TRANSIT AT GKBENWICH.
Month
t Leonis.
ft. Leonis.
v Leonis.
a LeoBi&
(Regului)
and
Day.
R.A.
Dec.».
R.A
Dec. N.
B.A.
Dec.N.
R.A.
DecN.
h m
t
h in
/
h m
-
h m
/
9 39
24 l8
9 46
26 33
9 54
8 36
10 2
12 32
l
n
1
•/
1
♦
t
*
Jan. i
ii,
21
3*
11-50
11-72 "
11-89 '»
45'2 8
44'4 ,
44'° T
439
5*°9 -
ii-
27-2
266 6
26-4 2
26-J °
::e -
I'20 '
22 *9 16
20 # "
i8-9 "
7-12 -
7-38 * 6
7- 7 8
-3-3 14
20'8
19-9
II
2
IS
3
I*
8
«3
6
Feb. io
20
I2'00 c
12-06 6
44*' .
44*5 -J
S-88
5*95 ,
26-7
III'
28-9 »
'•3* 7
*-39 ,
18,1 6
17*5 ,
7 ' 9 J 7
7-98 ;
193 .
'2'° 1
Mar. 2
12
12-06 °
12*02 4
45*9
S-96
5*93 3
1*41 *
1-38 3
17-2 »
17*1
8-oi 3
8-oo *
i8-9 ;
19-0
•
8
8
8
9
6
1
6
5
22
Apr. i
ii
21
xi-54' 5
46 1 9
47*6 !
48-5
49'3
S-8 5 I2
5-59 ,}
S-45 4
29-8
30-8 ,0
3V8 «;
32-7 9
J, 3* „
1-23 *
0-99 * 3
17-2
■7-4'
•9-3 4
■97
20-8 6
16
7
16
8
>3
5
'3
6
May i
11-38
ii-is ,5
11-09 '*
1096 ' 3
5°'o 6
5' 2 9 l6
33-5 6
086
07. ;;
£3 »
18-6
19*7 -
20*2 D
7-49 I4
"•4 6
ii
21
3 1
50-6
5**3 3
5""3
4-98 ' 5
34-' I
34 '2 t
34-8 *
7'35 ,;
7*22 J
7-io M
Zl'O
"■5
tyo '
II
I
IS
I
10
5
II
5
Jane io
I0 ' 8 |
5 I- 4
4*73 .
34'9 .■
O38
20-7
6 '99 ,
"3-5 ,
•3'9 3
* 4 -:
20
3
10-76 I
10-70
S1 '4 ,
51-2
4-64 ;
4'57 :
34-8 I
34-6 '
0-2 9 »
0-23
2I % 2 •*,
21-7 [
691 8
6'§4 ;
July 10
10-67 3
50-9 »
4-53 4
34-2 ♦
0M9 *
22-1 *
679 *
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I
5
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6
•
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20
10 '66
S0 '4 6
4 ' 51 «
33*6
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22*4
5' 77 c
-4-6
30
io-68 *
49-8 J
453 \
32-9 7
22-6 *
6-77 I
24-6 1
Aug. 9
19
m io 7' I
'10-82 9
82»
..4-57 \
465
32-0 *
11
30-9
. 8 °' 21 6
0-27
22 '7 2
*
22*7
6-79
6-84 s
«4'5 } '
II
II
11
«3
9
2
9
4
Sept. 8
IO *93 1C
4 6 '9 „
4'7 6 ..
2 9* 6 ,.
°'3 6 1*
"'S ,
6 '93 „
*3'8 6
n-o8 I5
45-7 "
4'9»
28-2 '+
0-48 !
22*2 i
"1 8
7-o4 "
•3'* i
18
"•»S«
44-3 f
42-8 *"
5'°7 J,
- 6> 7 ;i
°1s 1
7-'8 4 I«-4 I0
28
11-46 21
5-27
25- 1
o-8i If
20-8
7-36
»i'4 ,
H
16
*3
18
21
10
20
1:
Oct 8
18
28
11-70
11-97 * 7
12-26 2 *
41*2
39-5 \\
37-7 t
35*9
5-So
I' 77 30
6-07 3
2 3*3 l8
2I-S *°
17-8 i8
1*02
1-26 * 4
'Sill
19-8
i8- 5 I3
iS'4
7"5 6 2 .
7-80 2+
«-°7 II
20-J
'7' : ,8
Nov. 7
12-58 32
6- 39 -'
1-82 2 »
8-36-'
15-4
33
*7
33
18
3»
'7
3'
l8
17
Dec. 7
-7
12' 91
iyi6 35
13-60"
13-93 33
34-2
17
32-5 7
1?
•21-0 *
1*1
29.7 3
6-72
7'°7 35
7-4* 35
7'76 "
16-0
12-8 ' 5
n-5 *3
2*13
2- 4 S »
2-78 3 *
309 3 '
13-7
ii-8 ,9
9*9 "
8-o' 9
8-67
8-99 S
9 64 3
'3- 6 I9
9 * 17
8-i '
31
11
31
II
29
18
30
*7
27
H'24 2g 28-6
8 ' 07 20
10-4
3-38 2 .
6-2..
9*94 2g
64 15
37
14-5! 28 l27'8 8
8-36 29
9'7 7
3-65 27 4'6 "
10-22 * 8
4*9 _j
Digitized by VjOOQ IC
APPARENT PLACES OF STARS, 1882. 33
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
y l Leonis.
R.A.
Dec.N.
Jan. 1
11
21
3 1
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3*
June 10
20
30
July io
20
30
Aug. 9
19
29
Sept. 8
18
28
Oct. 8
18
28
Nov. 7
17
27
Doc. 7
17
27
37
h
IO
s
29-80
30*08
30*32
30-52
30*66
30*76
30*80
30-79
30-75
30*67
30-56
3043
30-29
30-15
30*02
29*89
29*78
29*68
29*60
29*54
13
28
*4
20
14
10
4
1
4
8
11
13
14
20 25
v
6l*2
6o*i
593
58*9
58-8
58-9
59-2
59-8
6o*6
61*4
62*2
63*1
14 <H
29-51
29-50
2951
29*55
29-63
29-74
29-88
30*05
30-25
30*49
30*76
31*05
31*37
31-70
32*04
32-38
32-70
3 2 '99
24
29
3a
33
34
34
3»
29
57'
56-
54'
63-9
6
65*2
65-7
66- 1
66-3
66-4
66-3
66*o
65-6
64-4
62*3
6i*o
59'5
52-4
50-4
48*5
46-7
45*i
4.3*6
42'4
4
5
7
10
11
13
15
16
17
19
19
fA Hydras.
R.A. DecS.
h
IO
ZO
24*87
25*14
25*37
^•55
25*68
25*77
25-81
25*81
25*77
25-69
^5*59
25*47
l6 14
H
*5'35
25*21
25-08 I3
I?
24-95 3
24*84
24*73
24*64
24-57
24-52
24-49
24-49
245I
s
24-57
24-65
24-77
24' 93
25*12
25-35
25*61
25*90
26*21
26-53
26-86
27*18
27*49
27'77
9*5
12*1
14*6
17*0
I 9 *3
21*4
23-3
24-9
26*2
27-2
28-0
285
28*7
28-7
28*4
279
27*2
26*3
252
24-0
22*7
21*3
19-9
186
26
24
*3
o
3
5
7
9
11
12
13
14
14
13
17*
16-
15'
'5'
i'4'
15"
i6«
18*
19*
21-
24*
26-
29-
14
17
21
*3
*4
*5
p Leonis.
R.A.
Dec.N.
h m
IO 26
37-66
37*93
38-17
38-37
38-52
38-62
38-67
38 -68
38-65
38-59
3850
3839
38-27
38*14
38-02
37-90
37*79
37'69
3761
37*55
37-5I
37*49
37-49
3752
37-66
3778
37*93
38*12
38-59 11
38-87 *°
39-17
3948
39-81
40-14
40-45
4Q'74
30
3»
33
33
3«
29
9 54
34*4
32-9
3'*5
30-4
29*6
29-1
28-8
28-8
28-9
29-3
29-7
30-2
30-8
3i*4
32-0
32-6
33-2
33*7
34-1
34*5
34*7
34*9
34*
34*
34*5
34*o
333
32-4
31-2
29-8 '♦
III 3
24-7
22-7
20*7
18-8
17-0
15-3
vi Argus.
R.A.
Dec. S.
h n
IO 40
31*62
32-04-:
32-39
32*68
45*
48'
5i'
55*
32*88
33*00
33*05
33-03
32*94
32*79
32*59
32-35
32*08
31*78
31*47
31*16
30*85
30*55
30*26
30*00
29*78
29*59
29*46
2939
,29-38
29-44
29*57
29*78
15
20
»4
*7
30
3i
3'
3i
3°
29
26
6
13
21
28
35
30*06
3 °T 41
30*82 *
31-29
47
50
31-79
59 3
59-0
62-8
66-5
70-0
73-2
76-2
78*8
8i*o
82*9
84-2
85*0
85-4
85*2
84*6
83-5
81*9
31
34
36
37
38
37
35
32
30
26
19
13
8
6
11
16
79
77'
75"
72
69'
66-
63
61*2
23
26
28
28
3 31
6* 7
59-1 l6
57-5 „
56*4 ,
559
5*
56*0
32-31 V^'7
32*84 " s8 .
33*35
49
34-28 44
59'9
62*3
h 6?*2
7
*3
"9
»4
29
y
Digitized by
Googfe*
338 APPARENT PLACES OF STARS, 1882.
,
AT UTFEB TRANSIT AT GKEEHWICffl
.
Month
f Leonis.
ft, Leonis.
v Leonis.
a Leonis.
(Regului)
and
Day.
R.A.
Dec.».
R.A.
Dec.N.
B.A.
DecN.
B.A.
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h m
t
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9 39
24 l8
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26 33
9 54
8 36
10 2
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Jan. I
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21
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43 9
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?'" 26
7' 38
7-78
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20-8 !I
19-9 9
II
2
12
3
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20
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5-88
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5*93 3
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28-9 »
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19*0 J
Mar. 2
12
12*06 °
12*02 4
45* 1 *
45*9
1 Hi !
1-38 3
17-2 3
I7'I
801 3
8'oo '
18*9 !
19*0
8
8
8
9
6
I
6
22
Apr. 1
11
21
u-ej ,4
xi-54 ' 5
47-6 *
8'5 1
49*3
S-8 5 „
5*73 14
5*45 *
29-8
30-8 ,0
31-8 «°
32-7 9
1-32
1-23 *
I'li"
0-99 I3
I7-2
.7-4 ;
a:? J
193 4
20*2 J
20*8
16
7
16
8
13
5
13
May 1
11-38
11-09 «♦
1098 '3
5°'° 6
5* 2 9 l6
33-5 6
O-86
0-72 '♦
048 "
18-6
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20-2 *
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7-35,
7'22 J
7-io "
21 '4 6
11
21
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50-6 •
51-0 J
51-3 3
5-13
4'98 ,J
34-i I
34-8 3
22*0
22*5 5
II
I
12
1
10
5
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June 10
I0 ' 8 5 «
5'"4
4'73
34*9 ,
038
20-7
6-99
2 3'5 4
20
30
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10-70
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0-23
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21'7 *
6*OI
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2 4' 2 J
July 10
10-67 *
50-9 3
4'53 4
34*2 *
0*19 *
22*1 *
679 5
24-5 3 ,
1
5
2
6
2
3
2
20
10 -66
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33-6
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f'77 p
24*6 !
30
io-68 *
49'8 ;
4-53 J
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32-9 7
22-6 *
6-77 '
24-6 t
Aug. 9
10-73 S
M io-K «
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3 2 ' ,1
22'7 *
6-79 *
6-84 5
«4"S 3
l 9
4-65
30-9
0-27
22*7
24*2
II
11
11
»3
9
2
9
Sept. 8
18
28
I0 '93 ie
46'9 .,
4*76 IA
2 9* 6 ti
°*3 6 ,,
22-5
6 "93 „
*3'8 1
n -08 IS
11-25 I7
11-46 2I
45-7 ;;
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4-9°
S-07 7
5-27
28-2 ' 4
25-1
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2f6 I
20-8 8
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736
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22 *4 10
21'4
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16,
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18
21
IO
20
Oct 8
18
28
11*70
11-97*7
lfU*9
41*2
37-7 l8
35'9
5*5° 27
S'77
6-°7 J
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21-5 '°
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1-02
1-26*4
i-S3 ! 7
•9-8 .,
185 '3
'5'4
7'5 6 24
7-80 2+
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20*2
18-8 ;;
x 7' 2 j8
Nov. 7
12-58 3 *
6-39 3*
1-82 * 9
8-36 *»
15*4
33
»7
33
18
31
»7
3 1
17
Dec. 7
»7
M'OI
13-26 "
13 -6o 34
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34-2
3^-5 I5 7
13
29-7 3
6-72
7-o7 »
7-42 ""
7-76 34
16-0
14-3 V
II-5 '3
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2- 4 S 33
2-78 3*
3-09 3I
13-7
ii-8 '»
8-67
8-99 f,
964 s
x 3'^ I9
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8-i '
31
11
31
II
29
18
30
27
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28-6
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10-4
3 "? *7
3-65 7
6-2 .
4'6 l6
994 ,,
10*22
6-4 I5
37
H'5* 27-8 °
8-36 29
9-7 7
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Digitized by
Google
APPARENT PLACES OF STARS, 1-882. 339
AT UPPEE TRANSIT AT GREENWICH.
Month
and
Day.
7* /&* 6«f*«*«4fi*«t
y l Leonis.
R.A.
Dec.N.
Jan. 1
11
21
3 1
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3i
June 10
20
30
July 10
20
30
Aug. 9
19
29
Sept. 8
18
28
Oct. 8
18
28
Nov. 7
»7
Dec, 7
*7
27
37
13
h
IO
8
29 '80
30*08
30-32
30-S2
30*66
30*76
30*80
30-79
30-75
30*67
30-56
30-43
30-29
30-15
30'02
29-89
29*78
29*68
29-60
29-54
29-5I
29 a 50
29-5I
2 9 *55
t
29*63
29-74
29'88
30*05
30-25
30-49
3C76
3I-05
31-37
3I-70
32-04
32-38
32*70
3 2 '99
61*2
6o*i
593
58*9
58*8
58*9
59-2
59-8
60 ■
61 ■
62'
63-
3*
33
34
34
3*
29
20 25
63-9
64-6
65-2
65*7
66-i
66-3
66*4
663
66-o
65-6
65*1
64*4
2:
61
59'
57*9
56-2
54*3
52-4
50-4
+8-5
46-7
45'i
43-6
42-4
I* Hydrse.
E.A.
Dec. S.
h
IO
20
24-87
25-14
25-37
25 55
25*68
25-77
25-81
2581
25-77
25 '69
25 59
25 "47
25-35
25*21
25-08 ; 3
24-95 "
"4
13
24-84
24*73
24*64
H'57
*4'5*
24*49
24*49
24*51
26
H'SI
2 4' 6 5 „
H-77 l6
24 93
25,12 n
*5'35 j
31
32
25-90
26*21
26-53
26-86 33
2718 32
31
2 7'49 28
o
16 14
9-5
12*1
14-6 * 5
*3
19*3
21*4
*3'3
24-9
26*2
27-2
28-0
28-5
28*7
28*7
28*4
279
27-2
20-3
25-2
24*0
22*7
21'3
19-9
l8*6
I7'4
16-3
15-0
14*8
15-6
16-6
18-0
19-7
21*8
24-1
26-5
29*0
p Leonis.
K.A.
Dec.N.
h in
IO 26
37-66
37*93
3817
38-37
38-52
38-62
38-67
38-68
38*65
38-59
38-50
3839
38-27
38*14
38*02
37-90
37 '79
37*69
3761
3755
37*51
3749
37*49
3752
V58
37*66
37-78
37'93
38-12
38-34
38*59
38-87
39*i7
39-48
39-81
40*14
40-45
40*74
*7
»4
20
»S
10
5
9 54
34-4 I5
3* '9 4
3i-5 *
30*4
2
o
3
6
8
12
IS
*9
22
»5
28
30
3i
33
33
3i
29
29*6
29-I
28*8
28*8
28-9
29*3
29*7
30-2
30-8
3*'4
32*0
326
33-2
33*7
34*1
34*5
34 # 7
34'9
34-
34'
34-5
34-0
3
; 2 '4
33
'3
26-5
24-7
22*7
20
18
*7"
15-
12
2
8 1 *
15
18
18
20
20
19
18
17
■I
yj Argus.
R.A.
Dec. S.
h n
IO 40
8
3I*62
3204-:
32-59
32-68
32-88
33 ' °
33'<>5
33-03
3*'94 15
3*"79 t J
3*'59 H
32*35
32*08
31*78
3i-47
31-16
30*85
30-55
30*26
30-00
29*78
29-59
29-46
29-39
19*38
29.44
29-57
29*78
30*06
30-41
30*82
31-29
3179
32-31
32*84
33-35
33-84
34'*8
*7
30
31
3i
31
30
29
26
6
13
21
28
35
4i
47
$o
53
5'
49
44
59 3
45-2
48*3
51*7
553
I 9 '2
62-8
66-5
70*0
73-2
76-2
78-8
8i-o
82-9
84*2
85*0
85-4
85*2
84-6
83-5
81-9
79*9
77-6
75-0
72*2
69-4
66-3
6 3 '6
61*2
59-1
57'5
56-4
55*9
56-0
!56-7
58-0
59-9
62*
6-r
31
34
36
37
38
37
35
3*.
30
26
22
19
13
8
23
26
28
28
31
27
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Digitized by
Google
34 o APPARENT PLACES OF STARS, i88z.
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
/ Leonis.
B.A. Dec. N,
d Leonis.
B. A. Dec. N.
a Urs® Majoris.
R. A Dec. N.
X Leonis.
R.A. De&N.
Jan. 1
| II
21
Feb. io
20
Mar. 2
12
22
Apr. i
ii
21
May i
ii
21
3 1
June io
20
30
July 10
20
Aug. 9
'9
Sept.
18
28
Oct 8
18
28
Not. 7
17
27
Dec 7
17
27
32
h m
10 43
4-89
5"' 3
5*81
593
O'OO
6*03
6*oi
5 96
s-
5*
8
7«
5-67
5-55
5*43
S-3i
5*20
5*io
501
4"94
4-88
485
4'8 4
4-85
,489
4-96
5*06
5 '20
«7
37
IN
08 27
30
38
70
02
35
67
91
II 9
54-7 , 3
534 ,
523
5''5
51*1
50-9
50-9
511
5»*S
52*1
52-7
53*3
54-0
54' 7
55*3
55-9
56
57**
57*3
57*4
57*4
57-2
568
56-2
55 '4
54*4
53-2
5**7
50- 1
48-3
46-3
44"3
423
40-3
38*5
36-8 I7
IO
m
54
o l
4 14
3-fi %
5«*4
30* 10
30-32
'7
30-49 I3
30*62 i
30*70
30*73
3073
30*69
30*63
3° "54
30*43
30*32
30*21
30*10
*9*99
29 89
29*80
29*72
29*66
29*62
29*60
29*60
.29*62
'29 -68
*9*7'
29*8
8
49-6
479 t
46*4
45*2
44*3
436
43*3
43**
431
43*3
437
44*2
44*7
45*3
459
46-5
47*
47*7.
48*3
488
49*2
49*5
49*7
49*7
49*5
49/1
48*5
18
30*04
30*24
30*47
30*73*
31*02
31*33
31*65
31*97
32*29
3* *59
*3
26
»9
3»
3*
3»
3i
30
47*6
46*5
45*
43*5
4I 7
39*8
37*7
35-6
33*6
3JL7.
II
16
18
"9
h n
IO 56
2830
28-82 5
29-29 J
29*69 *
30*01
30*2
30-31
30-39
30-33
30-19
29-97
29-70
29*39
29 os
28-69
2833
27-98
27-65
27-35
27-09
26-87
26-70
26-58
26-52
26*52
4 26- 59
26-73
26-93
27-20
27*54
27-94
28*40
28*91
29-46
30-04
30-63
31-20
3*'75
3*
22
13
3
6
*4
22
*7
31
34
36
36
35
33
30
26
7
20
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34
40
46
5*
55
58
59
57
55
62 22
50-5
SO*
5*'
533
55*
57*4
59*9
62-5
65*2
67-8
70-2
723
74-0
76-3
767
76'
75*
73'
69 *
67 ■
64-
6r
57'
54'
5* 1
4
9
15
'9
22
•»5
26
»7
26
*4
21
'7
14
9
4
o
6
10
14
19
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28
30
35
33
33
g*! ..
39.O
3 6-6
34-6
33-1
32-0
31-6
iH2_
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20
15
11
58
h
IO
57*66
57*92
58*14
58*32
58-45
58-54
58*58
58-58
58-54
58*48
58-40
58*30
58-18
58*06
57*95
57-84
57*74
57*65
57*57
57*5*
57*46
57*43
57*42
,57*44
57*50
57*58
57*70
57*86
58*05
58*27
58-53
58*82
59-*3
59*45
59-77
60*09
60*40
18
66*
°5*
13
7 57'
72*1
70*4
68*9
676
6
9
5
65*3
66*o
665
67-1
\v
68*4
69-0
69-6
70-2
70-7
7 ri
1V l
71*8
71-9
71-9
717
70*0
69*8
68-7
67-4
65-9
64*1
62*2
60*2
56* I
54
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Digitized by
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APPARENT PLACES OF STARS, 1882. 341
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
ft Leonis.
B.A.
Dec. N.
& Crateris.
R.A.
Dec. S.
Leonis.
B.A. Dec. N.
X Draconifl.
B.A. Dec.N,
Jan. 1
11
21
3 1
Feb. 10
20
Mar. %i
12
22
Apr. 1
11
21
May 1
11
21
3 1
June 10
20
30
July 10
20
30
Aug. 9
*9
Sept.
18
28
Oct. 8
18
28
Nov. 7
17
27
Dec 7
17
27
37
II
1-49
i*8o
;2- 08
12-32
2*52
2*07
277
:&
II
12
283
2' 80
,*"74
[2-65
•"54
2 -42
A 9 l3
t*
:2*o4
1 -9j
1-82
173
•65
'IS
155
II
II
9
8
Si -to
|i *6z
i6 4
"68 7
80"
IS
•95
O
21 <
55-8
S4 *I
53-6
53*0
52-7
52-7
S3-i
53*7
54-6
55-6
36-6
57*7
58-8
59-8
60*7
61*5
62*1
62*5*
62-7
62-7
62-6
62-3
61*7
6i*o
6co
{S**}
57
55
12*14
*9
•92
■ 5 8 3 *
$2 *
34
26
S8 3 *
53'
5*
49'
47*7
45*5
♦3-3
41*2
392
37'5
3 0*1
13
h
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28 ' I0 ,a
28-40 3 °
28-66 * 6
28-89
29*08
29-23
2935
2938
29-39
29-37
29-32
29*25
29*16 j
29-05
28-94
28-83 '
28*71
28*60 '
28-50 ,0
28-41
*ln
28-26
28*21
28-19
28-19
28-22
'28-29
28-40
28-54
28-72
28-95
29*20
29*49
29*80
30*13
30*46
30*79
31*10
o
14
n
293
317
36-4
38-5
40-5
42 %
43*8
46-1
46-8
47-3
47-6
47*7
47"5
47-2
46*7
46-0
45 - i
44-i
43-1
42-0
40-8
397
38*7
37-8
37-0
365
364
365
37-0
37*9
391
40-7
42-6
44'7
46-9
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54-01
53-93
53-87
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54-50
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55-63
55-96
56-28
56-59
3 *9
71-9
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66-6
65-4
64-4
636
63-2
63-0
63-0
63-2
63-6
64-0
64- 5
65-1
658
665
67-1
iv 1
68-3
68-8
69-2
69-6
69-8
698
69-7
3
7
67 •
66
65-5
63-9
62-1
6o-i
581
56-0
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H'99 *
26-35 ,
26-9I 3
27-38
27-73
27-95
28-05
28*02
27-88
27-64
27-30
47
35
22
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34
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39
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61
68
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75
75
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24*90
24*40
23*92
23*49
23-10
22 -77
22*51
22'32
22*22
22*19
22*20
22-43
22*69
23*05
23*50
24*03
24*64
25-32
26*04
26*79
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28 26
69 58
2 9'5 ,
*9-8 I
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32*2 *
20
34*2
365 3
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586 7
58-7 '
58-3 J
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220
19*0
16-4
14-1
12-3
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34* APPARENT PLACES OF STARS, i88z.
AT UPPEB TRANSIT AT GRBENWICH.
ptyttbeCct
/3 Leonis.
Month
tnd
Day.
u Leonis.
B.A. Deo.S.
B.A. Dec. BT.
y Ursa; Majoris.
B.A. Dec.».
■ Virginia.
B.A. Dm. N.
Jan. i
IT
21
3i
Feb. io
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3i
June 10
20
30
July 10
20
30
Aug. 9
*9
Sept.
18
28
Oct. 8
18
28
Nov. 7
*7
Dec. 7
17
*7
37
II 30
55-80
56-83
56-99
57'ii
57-18
57-21
57-21
57-18
57-12
S7'04
56-86
56*75
56-65
5^-54
56-44
56-35
56-27
56*20
56-15
56-11
56-10
56-12
56-26
56-39
56-55
56-75
56-99
57-26
57*55
5
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29*7
317
336
35*3
368
380
39-0
39*7
IO
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11
10
7
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4.0*1
40-3
♦03
4.0*1
39*8
3
38*4
37*6
3 6* 9
36*5
35*6
35'
34'
33'
33
7*87
8*20
58*52
58-83
33*3
33*2
33*3
33*7
34' 3
35*2
36*
37'
395
41*4
43'4
45"S
I
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4
6
9
12
14
17
*9
20
21
47*6
49'7
m
43
3*7 2 .
4-04 I
433 .
4-59
4*81
4*99
512
5* 20
525
5*5
5*22
5*'7
5*09
5*00
4*8
4'7
11
4' 6 7 „
4-56
4-45 „
4*34
9
4*25
4-i7 -
4*io '
4*06 4
4*04
4*08 4
4'i5 7
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4-26
4- 4 i X5
4'6i ao
4.84 a3
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5-39 ,1
5*71 3
§•04 33
33
6*37
6*70 "
15 13
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3 6 '
h m
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38*46 „
38-93 J;
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35'4
35*0
35*0
35»
35*7
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39 "75
40*08
40*35
40*54
40*65
33
»7
»9
»4
39*2
40*2
41*2
42*1
42*8
4
44'4
44*4
44-8
43-8
43*2
42*4
41*3
40*0
38-5
36-7
348
328
30-6
28-4
26*2
24-0
22*0
20-3
*7
40-70
40*68
40-59
40-45
18
40-27
40-05
39-8i H
39-56 >5
26
39*3° a6
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38*79 * 5 o
38*56 *3|6
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3^35
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38-00
37*88
38-4 .
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38*0
38-7 7
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39-8 l6
45*7 3
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48-2
508
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55*7
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68*0
66* 1
64*4
63*0
19
'7
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37* 80
37*77
,37*79
37*87
38*00
38*20
38*77 3
37
39*14
39*55
40*00
40*47
40*95
4'*43
4'
45
47
48
48
57*9
61 • 3
59*7
57*8
556
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50- 3
472
43*8
40*5
37*2
33*
30*
279
25*2
23*0
21*2
19*9
19*1
16
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12
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28
31
34
33
33
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52*27
52*36
52*44
52*44
5a*43
5239
52*33
52*25
52*16
52*06
51*96
51*85
5**75
5165
51*56
5**47
51*40
5**35
51*32
51*31
,5**33
51*40
51-50
5* '64
51*82
52*04 :
6i*8
6i*o
60/5
60*3
60*3
60 • 6
63*8
64*5
a-1
66-6
67-1
67-5
67-8
68-0
68-o
52-2
52-5.
H-It -
679
67-5
669
7 66-i
65-0
63-7
62-2
60-5
58-5
56-4
54' 3
52-2
50* 1
48-1
4
6
8
"I
21
Digitized by
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APPARENT PLACES OF STARS, 1882. 34:
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
a Corvi.
R.A.
DecS,
P Cham&leontis.
B. A Dec. S.
if Virginia.
B.A
DeaS.
a 1 Cruris.
R.A
Dec. S.
(Jan. 1
11
21
3 1
Feb. 10
20
Mar. 2
12
22
Apr, 1
11
21
May 1
11
21
3i
(June 10
20
30
July 10
20
Aug. 9
*9
Sept
18
28
Oct. 8
18
28
Nov. 7
*7
|Dec. 7
*7
27
37
h ml o
12 4 21
4*83
s
5
57
1-4* , 3 :i
49-0
*3
5'7S
»7i'iiJ«4
99
19
34
45
h m
12 II
3°'7+.. 9
3i'93„?
33-04
34-<>3
78 39
99
6-52
656
656
6-53
6-47
6*40
6*31
6*21
6-jo
5 99
5-87
575
5-64
5*53
5*44
5'37
5-32
5-30
531
S'37
5 'i 7 14
5-61 *
5-80 '«
6-03 * 3
*7
6*30
6 -So J0 !
»4
58-5
6o-8 a3
62*9
64-9
»7
66 &
68- 1 ,s
6 9'4 ?
70-4
7 i-r
71*6
71-9
71 9
71-7
71-3
70-7
698
68-8
fr 7
66-4
65- 1
63-8
62-6
61-4
60-4
59*7
593
593
596
60-3
!6i-4
34-88
35 58
36-10
36-46
36-67
3653
36-25
35-82
35-26
34*59
33-83
33- 00
32-10
31-18
30-25
85
70
5*
36
19
»4
18
43
56
67
76
«3
90
9*
93
90
35 -8 5
a 7*73 11
27-07
5*
26-55
26-20 »
26 : 03 ,7
26-07
26-33
26-80
27-46
28-31
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35 *o
7-62 .66-6
795 "688 "
2 9-3' lI4
.32*90
126
34-16
«-38' "
11-3
13-1
»5*4
18-2
21*4
24-9
28-6
32-4
36-2
39*9
435
469
50-0
52-7
551
57-0
58-4
593
59-6
59*4
58-6
57*3
55 - 5
533
507
47-9
44-9
4i-5
38-4
356
33-2
31-1
29-5
285
28-1
283
29-2
3<>-7
18
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28
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35
37
38
38
37
36
34
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»7
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»9
14
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3
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28
30
34
3«
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21
16
10
4
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53-27
53 59
53-89
54- 16
54-40
54-60
54*75
54 87
54-95
54*99
55-oo
54-98
54*94
54-87
54-79
54*7'
54-61
54*5i
54*4i
54-30
54-20
54-n
54 03
53-96
539*
53*89
„53*9o
53*94
54*02
54* H
54-3I
54-51
54-76
55-04
55*34
55-65
55-98
56-30
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47-6
49*7
51-6
53'3
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30
27
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20
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12
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58-0
57-6
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559
546
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6-83
7-11
7-31
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7-49
7-42
7-30
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6-34
6-03
570
5-36
5-03
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442
4-i7
51-1
51*0
51-1
51-5
52-1
53-o
54*1
555
57-2
59-0
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63-1
65-2
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18
22
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33
34
33
32
29
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6-97 59
60
57
15
58
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30-0
32*0
34'4
372
40*4
43'7
1
6
47'
50 •
54'
l T
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4
7
70-6
72*1
24
28
3*
33
34
35
35
34
3«
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19
15
731
737
738
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69-3
67-2
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49*4
47*7
46-5
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45*9
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344 APPARENT PLACES OF STARS, 1882.
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
&• Corvi.
R.A.
Dee. &
P Corvi.
R.A. Dec. S.
% y x Virginia.
R.A. Dec. S
& Virginia.
R.A. DecN
Jan. 1
11
21
3 1
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3i
June 10
20
30
July 10
20
30
Aug. 9
19
Sept. 8
18
28
Oct. 8
18
28
Nov. 7
17
Dec. 7
17
*7
11
33
3i
29
*5
si
17
»3
12 23
46-94
47-27
47-58
47'*7
48*12
48-33
48-50
48-63
48-72
48-77
4 5' 7 2
48-78
48-75
48-70
48-63
48-54
48-44
48-34
48-23
48-12
48-01
47'9i
47*81
47-72
O I
15 51
32-8
35 o "
394
h 1
12 28
12-49
12*83
13-15
13-44
O (
2Z 44
38*7
40-9
2
5
43*
45*
47*66
47 63
47'6;
47-61
47"
47"
48*01
48*22
48*47
48*76
49*07
49*40
49*73
50 'Q7
41*5
43'5
4 2' 3
46*9
48*2
49 '4
SO"!
51*0
5*5
51*7
* l 'l
51*6
513
30*9
50*3
49*6
48*7
47*8 .
46*8 1
45*8
44*8
43*9
43*2
42*6
42*2
421
42-3
42*9
»s
*9
3«
33
33
34
43-8
45*0
46*5
48*3
50*3
52*4
13*70
13*92
14*10
14*24
14*34
14*40
M-43
14*42
H'39
H-34
14*27
14*18
14*08
13*97
13*85
13*73
13*61
13*50
I3-39
1329
13*22
1318
13*17
13*19
9
13*27
13*39
I3-55
1377
14*02
14*31
14*63
'4'97
22
18
14
IO
6
3
47-8
50-1
52*2
54*1
55 # 9
57*4
s8 'Z
59-8
60 ■
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61 '
61 ■
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21
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18
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13
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8
6
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60
60
10
12
12
13
12
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35
34
503
49-8
49-6
49-8
50-4
52-6
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56-0
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41-93
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43* 60
43*5»
43-4I
43*31
43*20
43*09
42*99
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42
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42*68
42*70
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43*00
43*19
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43'
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44'
44*61
44-93
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14*2
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18-2
20*0
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21*
22
238
24-5
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12 49
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41*1
41*41
70-5
41-74
41-97
36
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68
66
65
42
42 31
16 x »
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62*6
6l # 9
6l*5
249
251
251
24-9
24*6
24-1
235
22*9
22*2
21
20*
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19*6
19-0
lZ o' 5
18*1
42*42
42*50
42*54
42-55
42*54
42*50
42*44
4**37
•3
, *4
61*7
62*2
17
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17*9
l8*2
18*7
19*5
20*6
21*9
23*5
*5"3
27*2
293
42*29
42*19
42*01
41*9
41-87
41 "&
41*66
41*56
41*48
41*43
41*40
41*40
t
41*44
4i*53
41*66
41*83
62*9
63 6
64*4
65*2
66*o
66
67
68
68
69.
69'
4* -05
4* -30 J
42*58 ,%
42*89
3i-4
33-5
43*21
43*54
69-6
69*2
68-6
67-8
66*7
65*5
63-8
62*0
60*0
579
55-8
53-7
5 i_*6
11
'4
15
18
20
21
21
Digitized by
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APPARENT PLACES OF STARS, 1882. 345
AT UPPER TRANSIT AT GREENWICH.
Month
rod
Day.
a Cannm Venst
RA. Dee.N.
j Virginia.
B.A.
DecK.
$ Virginia.
R.A DecS,
a Virginia.
(Spica)
R.A.
DecS.
(•Tan. 1
XI
21
3 1
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3 1
Jane 10
20
30
July 10
20
|Aug. 9
19
Sept.
18
28
|Oct. 8
18
28
Not. 7
*7
27
Dec. 7
17
27
37
h n
12 50
31-42 3
31-79
32-14
3**45
32-72
32-95
3312
33'2S
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37
35
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27
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17
13
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3856
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592
58-7
58-7
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60 '3
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65-5
67-7
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32-94
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32-96 35
38
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15
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22
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76-1
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79-1
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7 *-6
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72-
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16
19
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19-3
19-70
19-99
20*26
20-50
20*69
20-85
20-97
21-05
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21-11
21*10
21*06
21*00
20-93
20-85
20*75
20-64
20*52
20*41
20*29
20*18
20 '08
20*00
19*93
I989
I9-88
1*9' 9*3
20'00
20-I2
20-28
20-49
20-74
21*02
2133
»7
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19
16
II 35
26*0
24-1
22*4
21*0
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19*2
18
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19
20 '
1
7
5
21-4
22'
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24'
25"
26'
27'
28-
29-
29-
29-
29-
29-
29-5
29*0
28-3
27-3
8 1'*'"
24-4
22*6
20'7
l6 o 5
I-98
18-6
16-3
14-0
ii*7
9*5
7*5
h
13 :
51-35
51-67
5199
52-29
52-56
52*80
53-00
53*16
53**9
53*39
53*45
53*48
53'4f
53*4*5
53*4*
53*3*5
53*8
53* 20
53* 10
52* 99
52-88
52*77
52*66
52*56
5* '47
52*40
52*36
5* '35
,52-38
5*45
52-57
5**73
52-94
53*19
53*47
53-78
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30
87
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6
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38*8
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45'
46'
47*
48*5
48*9
49*1
49*1
48*9
48*6
48*2
47-7
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46-5
45-9
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44' 5
43-9
43*3
42*8
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42*0
4**9
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43'5
44-5
45-8
47*4
49*2
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53'
55*
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13 I
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59*79
60-12
60*42
60*70
60*95
61*17
61-35
61*50
6161
61*69
61*74
61*76
61*75
61*72
61*67
6r*6i
61*53
6* '43
61*32
6l'2I
61*09
60*97
60 -86
60*76
60 -68
60-62
60-59
6o-6i
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60-78
60*93
61*13
61-65
61-96
62*28
62-61
8
o
10
It
32
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33
30
28
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22
18
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18
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594
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52*4
52-8
53-5
3 * 58% " 7
3* 19
6o*8
" 62*7 '9,
Digitized by
Googk
346 APPARENT PLACES OF STARS, 1882.
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
Jan. I
11
21
3*
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3i
June 10
20
30
July 10
20
Aug. 9
19
29
Sept. 8
18
28
Oct. 8
18
28
Nov. 7
17
27
Dec. 7
*7
27
32
5 Virginia.
ft. A. Dec.N.
h n
■
41-62
41-94.
42-26
4* '57
42-85
43-10
43 '32
43-5I
43-66
43'78
43-86
43 '9 *
43-94
43-94
43-86
43-80
43-7*
43-63
435*
43-4i
43-29
43' 17
43-05
42-
42-
42-79
42-76
J 2 'I 6
-42-81
42-90
43-04
22*4
20-3
16-7
15-3
14- 1
13-1
12-5
12*1
120
121
12-5
13*0
135
14*2
15-0
»•!
165
17-2
179
18-6
19-1
I96
20*0
20'2
20*3
Z0'2
*9'9
lit
1
O
21
17
14
12
xo
6
43-45 J
43'7i
44*00
29
32
44'3* „
44'64 3 *
17-5
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n-i
9-1
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B.A.
h m
13 41
39 ' 81 33
40-14 "
4046 3I
41*08
41'34
4I-58
41'78
41-94
42-07
42*l6
42*22
42-24
42-24
42*21
42-l6
l8 2.
tr
31-6
J 21
2Q-C
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264 ,4
10
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24-9 '
24-8 I
25*0
25*6
26*5
9
27-7 "
42*08
£8
4I-76
4I*63
4I*50
4I-36
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o
3
5
8
9
11
12
13
13
14
14
41*10
40-99
40*90
40*84
40*83
,40-85
40*92
41-04
41*21
41*42
41-67
4^95
42*26
42 '59
Dec. N.
29- L 14
15
30-6
32-1 z *
35-1 I5
14
396
40-2.
40- 5
40-6
40-5
40
3
37
35
33
3i
29
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. 7
•3 X °
•I "
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.* 2 3
26-
24-
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17*0
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24
25
26
25
23
22
if Uisae Majoria.
B.A. Deo.N*
42
h m
13
53-43
53-86
54-29
54-7i
55-10
55-46
55-78
56-04
56-25
56-40
56-50
56-53
56-52
56-46
5635
56-21
56-03
55-83
55- 61
55*37
is
10
3
1
6
11
14
18
20
22
*4
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55-12
54 1 7 .5
54-62 5
54-38 * 4
54'l6
ll'H -
53-69
53-62
> 53 1i
53-66
53-78
53-96
54-20
54 5°
54-86
1
5
[2
18
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30
36
39
55**5 ..
55*68 *»
4953
48-3
46-4
45-2
44*5
444
45 -o
46-1
47*7
49-8
52-2
54-8
57*5
60-3
63*0
65-S
e T7
6 9 *6
71-2
72-3
73-0
73*2
73-0
72-3
71-2
6
11
16
21
*4
26
27
28
27
25
22
19
16
11
7
69*6
67-6
65-3
62-6
45*7
42-3
39-1
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336
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23
27
30
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37
35
35
34
32
29
26
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J 3 49
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4-80 33
513 "
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30
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21
6-47
664
6-78
6-88
6-94
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697
6-95
6-90
5'54
561
5-72
588
6-09
6'34
6-62
6*93
7 25
1858
6-83
6-74 9
6-64 IO
6-52 "
13
6-39
611
5*97
13
5-84 M
5-72
563
557
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6
11
16
21
25
28
3i
32
71-0
68-9
67-1
65-7
64-7
64-1
64*0
64-3
64-9
65-9
67-1
68-5
70*1
71-7
733
74-8
76
7 n
78-6
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80-5
80-4
79'9
70-2
78-2
76-9
75*3
21
18
14
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16
16
16
15
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11
8
73
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68
66
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5
7
10
13
16
19
23
4
1
8* 3
»4
4
9
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563
54 1
25
26
26
Digitized by
Google
APPARENT PLACES OF STARS, 1883. 347
AT UPPER TRANSIT AT GREENWICH.
Month
and
Daj.
P CentaurL
B.A. DecS.
t Virgini s.
B. A. Dec. N.
a Dratonis.
R.A
Dee. N.
a Bootis.
(Arcturus)
B.A. DecN
IJan. 1
II
21
- 31
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3i
Jane 10
20
30
July 10
20
30
Aug. 9
*9
Sept
18
28
Oct 8
18
28
Nov. 7
17
27
Dec. 7
l 7
27
37
13 55
55
3* 45
33-00
3353
34'oi
53
48
♦J
34'f Jj
34-82 3
3»
"3S-H l6
3S'4o
35-60
35-75
4-2
6*5
69*2
72-0
74
35-«3
35 85
35-82
35'73
77'8
8o-8 3 °
7* 9
83
86-5
89- 1
91-4
93*5
35-59
35-40
34-91
34-62
34-31
3399
33-68
33*39
33*H
32-93
32-79
*9
3«
3*
3'
29
*5
11
14
32-72
'32-86
*9
33-35 J7
33-72 JJ
34-16 ^
34-66 S°
54
35'»o
35j76_ s
59 47
584
9*2
62*1
96-
3
7
97*7
98-3
98-4
98-1
97'3
96-2
94-6
92-7
22 s
88-i
:6
'9
21
»4
*5
! 5 '
83-
8o-6 l *
78-4 M
h 1
13 55
39-08 ,
39-40
39-72
40-03
50-5
48-5
466
45-0
30
40-33
40-60 '
40-84 H
41-05
«7
41*22
41-47
4* # 55
43-6
42-4
41*6
41*0
40*8
40-9
41-2
4^7
41 "60
41*62
41*62
41*60
41*55
41-48
41*39
41-29
41-18
41-06
40-03
40*80
40-68
40-57
40-48
40-42
40*40
40*42
^40*48
40-59
42-3
43' *
43'
44'
40*75
4 -96 24
41-78 3I
42-09 ■*
2 6
45*
46 •
•7
•5
|47-3
'48-1
48-8
49*4
49*8
50-1
50*3
50-3
50-1
49-7
49- 1
48-3
47*i
45-7
44-»
42 4
40-4
38-4
36-3
34- 3
O
2
4
6
8
I2f«
14
15
18
20
20
h
H
a
0-70
1*27
x-86
**45
64 55
62-4
60 -6
59*4
58-8
3*02
3-55
4-02
4-42
59-0
59'8
47 6i-2
63*1
74
98
12
18
5'i5
5-04
4-85
4-60
4'3°
3'94
3-55
313
69
*5
81
39
o-99
0-62
0-31
0-05
87
76
84
10*01
10-29
10-65
11*09
11*60
12' l6
II
'9
*5
30
36
39
4»
44
44
44
4*
40
37
3i
26
18
ro
1
8
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28
3*
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68*2
71-3
74*4
77*5
80*4
83-1
85*7
%%
90-8
915
91-8
9I -s
90*6
89-3
87-5
85-3
82-6
79*7
8
»4
19
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»7
3i
3i
3i
29
27
16
3
9
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18
22
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33
68-8 1?
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37
57'7 ; 4
54-3 *
51-2 3
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48-6
46- 6 ao
h m
14 IO
I7 '° 9 3*1
17-41 3 *
17-74 33
i8-o6* a
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28
26
22
'f-37
18-65
18-91
1913
19-32
'9'47
19 "If
19-68
'9-73
I9-75
I9-74
19-70
19-04
19-56
19-46
I9-34
49*4
5 50*0
49*9
13
19-21
i<
iis*oi
18*76 X *
18*61 40/4
18*48 l *\X-Z '
18-37 "Jr? I0
18*28 %ll**
16
19
o /
•9 47
4 °"3 „
38-1 "
36-2
34-7
33-6
32-9
32-7
32-9
33*5
345
35*7
37-2
38-8
40-4
42*1
43-7
45-*
46-6
47-8
48-7
10
12
*5
16
16
'7
16
15
12
9
18-22
18*21
18*25
18-33
,44-8
42*9
♦Jo-6 * 3
l8 '«7 is
18-65
18-88 'I
20
19-14
*9
19-43 „
19-75 l22'9
35*7
33-i
30-4
27-7
25-2
Digitized by
Got
o
4 8 APPARENT PLACES OF STARS, 1882.
AT UPPER TRANSIT AT GREENWICH.
/Bootis.
R.A.
DecN,
p Bootis,
R.A.
DecN.
a* Centaori.
R. A. Dee. 8
i* Bootis.
&A. DecN.
h
58-74
59-07
59 '4o
9-7I
00
60-26
60 -49
60*69
60 -86
60*99
61*09
20
19 45
»
18*0
158
139
"'4
61
61
61
61 •
IS
18
16
6i*ii
61*04
60 '94
60*83
60*70
60*56
60*40
60*25
60
59
59'
10
11
x 3
H
16
*5
15
II
10
104
10-7
n*3
I2*|
13-6
15-1
i6-8
185
ZO'3
22 '0
23*6
26*4
27-4
28'2
28'8
291
29'I
59*74
59 '2
59*66
>59 -68
59*76
60*06
60-28
6055
60*84
61-15
28-8
1
27-2
20*0
14 28
**'* ,8
"•7 ,0
20-7
i8-2 *S
*5
h 1
14 26
44*74 ,.
45*07 f;
45-76 3
O I
30 52
*
70*4
68 -T •*■
66-2 *»
64- 8 '♦
46*09
A i'i°
46*69
46*94
33
31
«S
63-7
64-4
47-15 l8
47*33
47*47
47-57
47-6
47-61
47'65
47-62
65-5
7-0
8-8
70-9
73-1
75*4 11
77-6 „
79*7
*3
157
131
10-5
7-9
5-4
31
47-55
47-46
47*34
47-20
47-04
46-87
46-69
46-51
4f33
46-17
46-02
45-90
45-82
45-78
.«79
45-85
45*97
46-14
4 fl 6
46-62
81-7
l yS
85-0
86-2
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ai
16
19
! 7
I 7
I 7 '
86-
I 5 '
84-
82'
80 •
7 l'
76 •
72-
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61 •
46-91 33
47-24 »
58-3
55-9
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14 31
35* 79 s
36-35 j
36-92 *
37-48 5
O I
60 20
46*6
46-9 I
ff
38 03
38-54
39-02
39-45
39 83
40- 15
40-41
40-62
40-
40-84
40*86
40*82
55
5»
4«
43
503
52-2
5
i 4
60
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8
2
4
4°' 73 ,6
40-57
40-36
40-11
39-82
39 ' 5 % 34
39* 16 J *
38-81 «
. 34
3 8 "47
38 -is *■
37*«9 a7
37*67
37-52
37*46
,37*48
37*61
37*83
38*14
38*52
38*98
39*49
40-03
15
6
2
»3
22
3i
38
46
5i
54
59'5
62*2
64*9
67-7
70-4
73*0
75*4
77*7
79*7
81-3
826
83-6
84-1
84-2
83*8
83-0
15
19
22
*5
26
*7
27
28
»7
26
H
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33
33
34
3*
3i
29
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80 •
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4
8
12
16
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IK
66*3
64*2
62-4
6i-o
60 -o
h 1
14 39
50*03
50*36
50*69
51-03
51*35
51*66
5^*95
52-20
52-42
52*61
52-76
52*87
52*96
53*00
53-01
5**99
52 '%i
52-86
52-76
52-64
52*49
52-33
52*16
51-98
5181
51-64
5i'49
51-36
51-27
51-22
51-22
'51*27
5i*37
5i*53
s
8
10
12
*5
16
17
18
17
17
>5
*3
51
51
52*26
5**57
27 33
68-o
65-7
63.7
62*2
61-2
6o*6
60*6
6i*i
62-0
63-3
65-0
66*9
69-0
71-1 :
73*3 !
75*4
77*4
79*2
80*7
82*0
82-9
lf:i
83*8
78*2
76*I
73*7
70*9
68*i
65-2
62-3
59*4
56*6
54'i
*4
28
28
29
29
29
28
*S
Digitized by
APPARENT PLACES OF STARS, 1882. 34
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
a Librae.
R.A Dec.S.
?
h m
14 44
8
21*55
11-87 3a
Zl'ZO ■"
22-53 33
P UrssB Minoris.
R.A.
Dec. N.
^Bootis.
B.A.
Dec.N.
|3 Librae.
R.A.
Dec. 8.
Jan. 1
11
21
3 1
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3i
June 10
20
30
July 10
20
30
Aug. 9
*9
Sept
18
28
Oct 8
18
28
Nov. 7
*7
Dec. 7
*7
27
37
22*85
2315
23-43
23-68
3*
30
28
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25-21
25-48
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26-39
26-43
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40*94
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42-72
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42*90
42*94
42*95
42*94
42-89
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42-73
42*61
42'47
42-33
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42*03
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52-4
52-0
516
$*■$
516
51-9
52-4
532
54-2
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5 o APPARENT PLACES OF STARS, 188a.
AT UPPER TRANSIT AT GREENWICH.
a Coronae.
B.A.
DecK
a Serpentia.
B.A.
Dec. N.
i Serpentia.
B.A. DecN.
5 Ursae Minoris.
R.A- DecN,
h m
15 29
41-59 ,
42* 22 •*
42'S5
42-87
43-17
43-46
43-72
43*95
44-14
44-3 1
44'44
44 '54
44-60
44-63
44-63
44'59
44-52
44-41
33
3*
30
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16
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3
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27 6
33-8 •
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28-5
27.7
27-4
27-6
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44-1
43-9
43 '77
43-58
43-39
43-21
43-05
42-91
42*81
4* '75
42-74
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42-79
42-89
43*04
43^4
43'48
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7
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19
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18
16
28-3
29-4
31*0
32-8
34*9
37-2
39 5
41-8
44-0
46*1
48-0
49-6
50-9
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52-0
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6
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21
19
16
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31-2
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28-87 3 °
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6 47
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29-90
30-10
30-28
30-42
30-54
30-63
30-69
30-71
30-71
30-68
30-61
30*52
30*40
30-27
30*12
29*95
29*79
29*63
29 '49
29-38
29-30
29-26
29-26
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29*43
29-58
29-77
30-00
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10
18
47*8
45-8
43 '9
42-3
40*9
39-8
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38-8
39-2
39-8
40-7
19
16
41-8
43-1
44*5
45 '9
tu
49-9
51-1
52-1
52-9
53-6
54*i
54*3
54-4
54-3
53-9
53*3
52-4
512
49-9
48-3
46*3
44*4
42-3
40-2
38'I
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14
14
13
12
15 44
56*05 „
56*33 „
56-63 3 '
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56-93
4 49
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52-9
57-*4
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57-83
58-10
58-36
5f 59
58-79
58*97
59*12
59-25
59'34
59-4I
59-44
59-45
59-42
59*36
59*27
59-16
58-88
58*72
58*55
5f*39
58-25
58-13
58-05
58-00
58-00
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5815
58-30
58-49
58*72
5898
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30
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18
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9
7
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51-5
50*4
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49*3
49*2
49*5
50-1
50-9
5*9
53-i
54-4
55-7
57'o
58*3
00 -6
6i-6
62-5
63*1
63 -6
63-9
64*0
64-0
63-7
63*2
62-4
61 -4
60 '2
58-7
56-9
55*0
53-1
13
13
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6
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18
19
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15 48
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20-13 8l
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21-62
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21
22*
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22-54
22*32
78 8
21*92
21-36
20-66 1°
19-84 8l
93
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io-82 ,oS
15-71"'
112
12-42
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68-0
65-2
63-0
61 -4
60-4
6o-i
60 -4
61-4
63-0
65-2
67-8
70-7
73-8
77'i
80-4
83-6
86-s
892
91-6
93-6
95-1
96-1
966
966
960
95 o
93*5
915
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9*74
90
79
63
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28
22
16
10
3
3
10
16
22
26
29
3i
33
33
3*
29
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20
15
10
5
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8-39
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862 2 *
83-1 3I
79-6 35
36
76-0
72-0 4 °
68-3 37
64-8 35
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58-4
Digitized by
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APPARENT PLACES OF STARS, 1882. 351
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day-
F Scorpii.
R.A Dec
3 Ophiuchi.
Dec. 8.
7 Herculis.
B» A. Dec. N.
a Scorpii.
(Aniares)
R. A. Dec. S.
[Jan. 1
xx
ti
3*
Feb. 10
20
Mar. 2
12
22
[Apr. 1
11
21
May x
11
21
31
jjaseio
20
30
July 10
20
|Ang. 9
19
Sept.
18
28
Oct. 8
18
28
Nov. 7
"7
*7
Dec. 7
»7
*7
_37
h 1
15 58
34*7<> ,
35 00
35-31
35-63 "
35-96
36*20
36*60 3I
36*90 3 °
37-18
37*44
37-68
37-89
38-08
38-38
3846
19 28
49*
50-
Si-8
52-9
54*o
55*o
56*0
5-5-9
38 52
38 55
38-54
38-50
XI
38-42
38-31
38-18 '•?
38-03
37-87
37-70
3753
37 38
37**5
37" "5
37- 10
37-10
,37-M
37-25
37-41
3761
37-85
38i3_
«7
"7
»S
*3
10
5
o
58-7
59-0
59' 3
59*4
59*5
59*6
59'5
595
59*4
59*
59-0
58-7
58-4
58-1
•7
-2
56-8
5*5*3
55-8
55*4
55-*
54-9
54 - 9
55'-
555
56-0
56-7
57-6
16
m
8
9*93 J
0-2I
05I
0-82
1*12
I-42
I-70
-*97
2*22
2-44
2-64
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-97
-10
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'••5
28
3 27
3*3
3*16
3*06
2 94
2-79
2-63
2-47
2-31
215
2*02
I-92
i-86
1-84
1-87
1-96
2-09
2-2§ ' 7
22
2'48
2-73
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o
3 *3
21*8
23-4
24-9
26-4
27-
28'
29'
30-
30*
30-
30'
29-
28-9
28*2
27-3
26-3
25-4
•M'4
23-5
22*7
21*9
21*2
20*6
20- 1
I 9 '4
19*6
I99
20*4
2L*X
22*1
23-3
24-6
2-5*1
27"6
29-2
h m
16 16
42-81 J
43-09
43*38
43-69
44-00
44-30
44*59
44-86
45-11
45*34
45*55
45-88
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46-07
46-12
46-13
46-11
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16
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44-42
44'37
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61*0
6i'7
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61 -9
61*3
60-3
59"
57*5
55*6
12
44-37
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44*54
44-69
44*89
45*>3_
53*5
150-9/
48-4
45-8
43-2
40-7
12
16
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21
23
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26
26
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16
m
22
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1-38 33
34
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3-58 * 7
3-82 **
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9
[4-60
4-66 6
4 67
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[4-58
14-48
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4*9
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4-02
383
3-65 r
3*48
3*33
321
3-"3
3*i*
3*3
3*21
3*36
355
3-78
14-06
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11
8
2
26 IO
»
30
3*4
40
47
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7*i
7-9
8*6
93
99
10-4
10*9
117
12*1
12*4
12-7
12-9
131
13*
13-2
13-2
13-0
12-7
12-3
ii-8
113
10-7
10*0
f' 4
8-9
8*4
8*o
7- 9
8*o
8*2
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352 APPARENT PLACES OF STARS, 1882.
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
i)' Draconis.
RA.
Dec. N.
5 Ophiuchi.
B.A. DecS.
a Trianguli Aust
R. A. Dec S.
5 Herculis.
B.A DecN,
Jan. 1
11
21
3<
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3*
June 10
20
30
Jul/ 10
20
30
Aug. 9
19
Sept.
18
Oct 8
18
28
Nov. 7
17
27
Dec 7
*7
27
- 37
l6 22 (6l 46
8
21*69
35
4*
47
50
5i
5*
5o
22*04
22-45
22*92
23*42
23-93
24-45
24*95
47
25-42
20*23
2655 JI
*5
26*80
26-98
27-08
27*11
ft
41*6
38-5 II
35-8 * 7
33-6
32-0
31*0
30-8
31*2
32*2
339
36-1
38-7
41-6
44-8
48-1
51-4
27*07
26*95
26*76
26*51
26*20
10
2
4
10
17
22
26
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3^
33
33
3«
54-6
I 7 ' 7 2l
60-5
2*5
6 3 *
zu'so ^65*1 £
25-84 j6 66-7 ,6
.1... 4°«».i Ia
«S -44
67-9
45-01 43 68-6
46
24*55
H09 46
46
68-7
68-4
67-5
a3-63 4J -t ,
23*20 * J 66-2
40
22*80 -
22*44 3
22*15
21-93
21-79
"'74
21
21
29
22'l6
**'47
52-8
49'3
79 t ;4S - *
4i-5
38*0
34'7
93
»3
3i
64-3
62'0
59*3
56-2
13
19
*3
27
3i
34
35
4i
37
35
33
16
m
39*65 l6
39-91 ,8
.40-19 30
40-49
30
IO 19
40-79
41-IO
41-41 l 9
41-70
28
41-98
42-25 25
4* -so .3
42-73
42-93
43-10
43-25
43-37
43-46
43-5I
43-53
43-5I
43-46
43*37
43-*5
43-11
42-95
42-78
42-61
42-45
42-31
42-19
42-11
42-07
42-09
,4*-i5
42-27
42-43
3 I' 7
36-9
38-1
39-2
40-3
41-2
42-0
42*6
42-9
43-0
43-0
42-8
42-4
41-9
41 'i
40-8
42-64
?2-88 a +
40*1
5
. 9
38-3
37-8
36*8
36-4
36-0
35'7
355
35-3
35-2
35'3
35-4
35*7
36-2
36-8
37-7
38-7
39-8
4Q-9
16 $6
68 48
0*07
0*67
2-06
2-82
3*59
4*35
5-12
5-85
6-54
7-18
7-76
8-27
8-71
9-07
9'33
9-50
9*57
9-54
9-41
•18
8-03
7*54
7-03
6-52
6-03
59
23
95
79
60
67
7*
76
77
76
77
73
69
64
S»
5»
44
36
a6
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7
3
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31
39
45
49
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44
36
28
16
I 9 -
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15'
16-
17
19'
20'
22'
25'
27'
30-
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35
37
39
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4-83
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5-86
6-42
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7
11
16
20
22
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26
26
28
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22
18
h m
l6 36
49-69
49"93
50-20
50-50
50-82
51-14
51-46 3*
Si-78 3a
31 4 8j
"'■* 28
54-7 a5 8 ;
«7!
52-08
52-36
52-62
52-85
52-2
50-1
48-4
47-2
465
46-5
46-9
47-9
49-4
5'3
I
lo ,
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22
16
53-05
53-*i
53-34 ,*
53-44
6-c
53-49
53-50
53-47
53-40
53*30
53'i6 *
s*-9| ;
52-78
64-
66-
69-
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16
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22
5
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58-7 * 7
» 7
I
7
1
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52*57
52-35
52*12
51-91
51-71
51*54
51-40
51-31
51-27
>S I-2§
51-36
5I-48
51-66
51-88
77-6
77*7
77.*4
76-7
75-6
74-1
72-2
70-0
11
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19
as
26
6 7'4 ,g
646 **
6l-4
18
58-3
55-3
52-4
3*
31
30
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Digitized by
Google
APPARENT PLACES OF STARS, 1882. 35
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
k OphiuchL
B.A. DecN,
t Urate Minora.
R. A. Dec. N.
19 Ophiuchi.
B.A. DecS.
a 1 Herculis.
R. A Dec. N.
Jan.
Feb.
Mar.
Apr.
May
June
July
Aug,
Sept.
Oct.
Not.
Dec
1
11
21
3*
10
20
i
12
22
1
11
21
1
11
21
3 1
10
20
30
10
20
30
9
*9
18
28
8
18
28
7
*7
27
7
17
27
h n
l6 52
s
4-63
4*8? "
5* 10
5*3«
9 33
5-67
s- 9 6
6*35
6-54
8a
09
34
57
»9
»9
*9
»9
18
*7
»S
•3
7- 78
7-96
811
8-23
8*3*
8-38
8-40
838
I'V
8-24
8*12
7*97
7-63
7*45
7 .2 7
6-97
6-86
6-79
f'Z 7
6-8o
'6-88
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20
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12
22
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xx
21
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11
21
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20
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18
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APPARENT PLACES OF STARS, 1882. 3 55
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
Jan. 1
11
21
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Feb. 10
20
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12
22
Apr* 1
11
21
May 1
11
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3 1
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20
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July 10
20
30
Aug. 9
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Sept.
18
28
Oct 8
18
28
Nov. 7
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17
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9-15
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53*17,0
53*37 , 6
S3'53
53*«5
53*74
53*78
53*78
53-74
53*65
5353
53*37
53* 18
52*97
52*76
5**54
52*32
52*12
51*95
51*81
»9
51*72
51-67
51-67
{«:«}
51-84
102.
»s
15*4
13-0
12*8
12*3
12*4
12-9
14-0
155
•7'4
19-6
22*1
24-7
27-4
30-1
33-7
351
•o
IS
it
5
37*4
394
1
K*'5
64*
5
XI
IS
19
aa
•5
»6
*7
*7
a6
*4
*3
ao
17
H
43'5
44-1
44'4
44 # 3
8"*
4I 'S
39-8
37-8
3S 'S
2*8
JOfl
•9-tJ
27'0
24'2
y Draconis.
RA. DecN.
h in
17 53
50- *9 l6
50*97
3*
51*65 3
53*04
70*1
66-8
63 -6
7
"60
5**44
52*84
S3'*3
5361
39
40
40
39
3«
36
53-97
3*
54-*9 ,,
54-57
5481
55*00
58-3
56*4
551
54'4
54 '4
55*0
56*3
58-1
60-4
63-1
1
3
<t?
55-13
55*30
55-21
55* 16
55 05
54*89
54-67
54-41
54- u
53*79
53 '45
53*10
52*75
52-42
5 *'l
51*8
51*68
5i 54
51*46
5* *45
9
51'66
16
aa
,6
SO
3*
34
35
35
33
29
••5
51 29
72*6
76*0
9*3
2-4
87-9
90*2
92*1
93'S
94-4
94*9
94-8
94-3
93-2
i # 7
9
84-3
8l'2
77 - 9
6
13
18
*3
*7
30
3*
33
34
33
3i
2 9
26
*3
19
14
9
S
1
74'
2°J
11
15
ao
*5
ao
31
33
38
35
72 Ophiuchi.
RA. DecN.
h m
18 1
44-88
45-05
45-25
45-48
45-73
45-99
46-56
46*84
47'»3
* r il
47-68
47'93
4 5'*Z
48*38
48*57
48*72
48-84
48-96
48*96
48-84
48-72
48*58
48*42
48*24
48*05
47*86
47*69
47-55
47-43
47*35
47-3I
47*32
47-37
47*48
47-63
491
if
45'
45
45'
45'
3
464
475
489
So* 5
52-3
542
14
,6
18
'9
19
17
14
xa
9 32
5* 6 .;
50-- 8
56-3
60*0
18
«6:
63-4
64*9
66-3!?
3
67
«s
10
o
6
69-0
69*0
68-8
68 -4
67-6
66-6
65-4
63-9
63-3
•5
*6o
58-4
56*5
»9
Digitized by
2 A 2
O
356 APPARENT PLACES OF STARS, 1882.
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
p. Sagittarii.
B.A.
Dee. &
fl Serpentis.
S.A.
Dec. S.
X SagittariL
R.A.
Dec. S.
a Lyro.
(Vega)
B.A.
Dec. N.
Jan. 1
11
21
3*
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3i
June 10
20
30
July 10
20
Aug. 9
*9
Sept
18
28
Oct. 8
18
28
Nov. 7
Dec 7
*7
*7
37
18 6
*
42*04
42-23
4**45
42-70
42*98
43-27
43-58
43*89
44-20
445i
44*82
45* 12
h m
45-4 1
45*68
45*92
46*14
46*32
46*47
4 *"£ 8
46*65
46*67
46*65
46*5
46*41
46* 3
46*1
46*00
45*81
45'6|
45*46
45-31
45*20
3»
3»
3«
30
19
»7
»4
**
18
«S
11
7
21
#
4*a
43
4'4
46
48
49
5-0
5*0
4*9
47
44
4*i
37
3.3
a
23
2'0
i*8
i*6
i*6
i'5
4513
4S-io
45-12
45-19
45149 7
i'4
1*2
I-I
I'O
O
o
o-8
0-9
I'O
18 15
o 1
* 55
II*90
12-06
12*25
12-47
12-72
12-98
13*26
13 '54
13*83
14*12
14*40
14*68
H'94
15*19
15 -42
15*63
15*80
i|'94
16*04
16*10
16*12
i6*io
16*04
iS-94
15*81
1566
I 5'49
15*31
x6
19
22
*5
26
28
28
29
29
28
28
26
*5
*3
21
17
37*7
38*9
40*1
411
42*0
42*8
43-3
43*8
436
43'3
42-7
41*9
40*9
397
38*4
37-1
35*8
34-5
633
321
a
*5
H
«4
14*70
14*62
14*58
14-59
14*64
1
14*74
1488
»3
IS
17
18
18
»7
'4
la
8
4
1
28*2
27*8
27*6
27*6
'4
31*0
30*1
293
2i*7
29*6
30*4
31*4
32*5
33*8
350
h m
l8 20
40*99
41*17
25 29
41*39
41*64
41*91
42*21
42*52
42*83
43*16
43*48
43* 80
44*ii
44*42
44*70
44-96
45*°
45 41
45-58
45-70
45-78
45-82
45'8i
4S lf
4566
45*53
45*37
45-18
44*98
44-79
44-6i
44*45
44-ja
44**4
44*20
44*2i
44*27
1
44*38
»*5
2*4
•■•4
■••5
1
s
10
>3
16
»9
to
»9
18
16
»3
8
4
1
44_'54_
30
2-7
2*4
2*1
i*8
i-6
5*8
S' 6 \
55 ,
5-4
5*3 ,
S' 1 .
5*0
4*8 *
4*6 \
4*3 \
4*o }
3*7 3
3
34 3
3*i
2*8 *
2*6 •
•5*7 ,
**9 ,
31 3
3*4 3
a
3*6
*'* o
39
o
3
3 '«
36
3*3
h 1
18 32
SS'55 ,
SSf7
55*84 ,
56*05
o i
38 40
*
30-9
27-8
24*9
22*2
3*
29
»7
56'
56
57*20
57*53
57*87
58*20
58-52
58*83
59*ii
59*37
59-59
59*71
59-8
59*9 ;
60* 02
6o*oo
59*94
59*|3
59-67
59*47
59-"5
50*00
58*74
58*48
58*23
57*99
57*78
57*61
57*49
57*4*
57*39
»4
a8
3i
3»
33
34
33
3*
3i
a8
26
as
»7
"3
9
4
19*8
17*8
io*3
•5*4
15*1
16*2
17*6
»4
ao
»S
9
'9
21
24
27'
30
3
13
.6-7
398
2
9
«4
"9
*3
26
29
3*
3*
3i
3i
,9
.A-
47-f H
49-8
»5
26
26
«5
•H
21
17
12
7
3
-57-43
57-53
10
5I '§
52*8
53*6
54*0
54*0
53'5
5** # 5
51*0
40*2
46-9
44*3
4i-5
3»-5
35-0
>7
13
8
5
zo
«5
18
*3
26
28
3©
35
Digitized by
Got
o
APPARENT PLACES OF STARS, 1882. 357
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
/3 s Lyre.
JELA. Dec. N,
i Aquilro.
JELA.
Dec. N.
gAquita.
RA. DecN.
# Aquito.
RA. Dee. N.
|Jan. x
11
21
3*
Feb. 10
20
Mar. 2
12
22
Apr. 1
IX
21
May 1
XI
21
31
jjuneio
20
30
July 10
20
30
Aug. 9
19
Sept.
18
28
Oct. 8
18
28
Nov. 7
17
27
Dec. 7
17
27
37
h n
18 45
*
4*-6t
44-78
42-97
«! 4 2 26
33 13
*
35
33*
30-5
43-46
43 '74
44-04
44-35
44-07
44'99
4S-30
4S '!°
45-88
46-14
46 36
4f'55
46-70
46-81
46-86
28
30
3»
3»
3*
3'
30
*8
x6
at
19
»5
11
5
»9
*7
»6
*3
»9
»S
9
28
26*3
24-8
23-9
23-5
23:7.
24*4
25-7
27-4
29-6
34-8 * 7
•9
37*7 ,
40-7 L
43*7
46-7
2
7
»3
»7
21
2j'
46-87
46-83
it'll ■'
»7
4$'45
46 '2 3 »3
45-80 * J
»4
45-56
45*33
45"
44-92
49-5
52-0
5 f 3
56-3
58-0
59*3
60-2
60-7
28
25
23
20
17
13
9
5
44-76
44-64
44*57
4455
,44-5*
'44-66
60 -8
60-4
5
56-
54"
5*'
49'
26
s8
h m
18 54
[8-c
[8-8i
9-03
46-8
C43
C55
[-70
(-89
6*10
i-8 S
7*4*
71
00
;i
8-28
14 54
364
34-i
32-1
30-2
9*3
9*39
9'Sa
19-60
964
964
9 59
9-51
1
9' 39 .
23'
i-87 '
18-68 *
(8-49 ;
8-17
1
18-05
7'97
7-92
7-92
[7-96
18-05
28-6
27-2
20-2
25*6
25 4
25-7
26-4
27-5
29-0
307
327
349
23
37**
41-8 3
44-o"
46-1
48*0
49" 7
511
52-3
53*3
53 9
54*
543
54-o
534
5*'5
5i
4
4:
46'
44'
42'
11
»S
»7
»9
20
18 59
58*60
•58-71
58-85
59-03
59 # *4
S9 # 47
59-72
59 99
60*27
60-55
60*84
61-13
61-41
61 -68
61 94
62*17
62*37
62*67
62*76
62*81
62-81
62*77
62*70
62*58
62*26
62-08
61*89
61*70
61*53
61*38
61*25
61*17
61*12
61*12
61*16
•61*24
O I
13 41
If
a ss„
2 3*3 ao
2|, J t8
19-5
z6*
28'
31-
33'
3
40-2
39'
37"
16*6
iS-7
15-1
14*9
15*2
15*9
17*0
18*4
20*I
22*1
24*2
16
«3
9
6
17
so
si
*3
*3
ss
ss
35**
71 ,0
5-8 «'
41-4
42-3
42-9
43'3
43-3
43 «
42-6
4i'7
40*6
2
6
35*8
12
16' 16
S6-2 7 "
16-40 ,}
*6-57 *'
O
II
rr
62*
60 \
22
16*76
16*98
17*22
17*49
17*76
18*04
18*02
18*91
19
19 r
196;
19*90
20*.08
20*22
20*33
20*39
20*41
20*38
20*31
*9
as
*4
*7
*7
s8
*9
*9
*9
589
57'7
56*8
56*3
56* 1
56*4
;8-i
26
20*21
20-07 1+
1991
19-73
*9'54
19 36
19-19
19-04
18-91
18 §2
18-77
18-76
18-79
ft*)
59'5
6l*2
63-1
65-1
67.3
69-5
71-6
73'7
75'7
77'5
91
0-5
817
82 -6
83-2
83-6
83-7
83*0
82-3
I 1 '*
80-1
78-6
77-0
75 -a
Digitized by
Goo
o
5 8 APPARENT PLACES OF STARS, 1882.
AT UPPER TRANSIT AT GREENWICH.
8 AquiltB.
R.A.
Dm.IT.
h* SagittoriL
B.A. DM.B.
r Aqnite.-
B.A Deo.1T.
a Aqnilae.
(Altair)
B.A. DecN.
»7
.37
h n
19 19
.3*V x,
2 52
3*59
ij
3 a 7* 16
32-88
33-07
33 **9 «
33*53 2 J
33*79
»7
aS
»»
«*« a8
35*49 ,«
35*75
34*0*3
34*34
34-63
34-98
■oo
*5
36*22
54*9
53*4
52*1
5°*9
49*9
40-1
48*5
48*2
48-3
48-7
49*4
5°*4
51*6
5y l
54*8
6-5
5j *3
36-41 »6o-2 »
36-57 ,6 6i-o X7
36-69 "63-1 ,w
36-69
36-77
36-80
36-78
36-73
36-64
36-I9
36*02
35-84
3S-67
3S - 53
35-41
35'3*
35-27
35-26
35-29
35-36
2
6
67-8
68-8
69-7
70-3
70-7
71-0
71-0
70-8
70-5
69-9
•2
•a
67-2
66-o
64-6
63*3
10
10
12
::
h n
19 29
s
,3 IM S I:
31*39 j
3i*57
3*'°* 26
32-28 ao
SO
25 8
29*6
1
32-57
32-87
33-x8
33-50
33-82
34-*5
34'47
34*77
35-06
35-3*
3555
35-75
35-90
36*00
36-05
36-06
36-02
35*93
35-81
35-65
35-47
7
28-2
27-7
27-1
2b-|
25-8
25*0
24-2
23 4
22-5
21*6
20-8
20-r
19-4
18-9
l V 5
18-2
18-1
5
1
4
9
ia
26
18
19
18
18
18'
18-9
35-28
3S-o9
34-91 -
34*75
34-62
34-53
34-47
34-46
34'49
34*57
9
6
19-3
19-7
20-1
20"5
20 -8
21*0
2IT
2IT
21-0
20*9
20-7
20*4
h m
19 40
38*62
38-68
■••3Y80
3894
39-ii
39-31
39*53
39*77
41*4
39*7
37*9
3*3*3
40*03 a ,
4 °T »»
40-89 '
*9
41*47 a ;
42*00
*4
42-24
4**44
42-61
4**75
35*5
38-9 :
41-0
42-84
42-88
42-88
42-84
42-76
42*64
42-49
42-32
42-14
4i*9« I?
41 1 9 ««
41*63
•3
11
7
3
41*50
41*39
41*32
41*29
41*29
41*34
IO 19
34*
33*
32-9
3**4
32*2
32 5
33-1
34*'
43*1
45*3
47*5
496
57*7
58*7
59*4
59*9
6o*t
60 -o
59*7
59-1
58-2
57-i
55*8
54*4
J5**8
h n
19 45
it
37
5*
1-67
i-8 7
2-09
233
i 9
87
-5
3*45
3*74
4*03
4*3*
4*57
4*8t
5-02
5-20
5*34
5*4:
5 ' 4 i,
5 48
5*44
5*26
4-96
4'79
4-61
4-44
4-28
4-i5
4'o4
3*97
3-94
3-94
3-98
IX
"4
16
20
22
H
26
28
28
30
29
*9
28
26
8 33
Z9 'l s
27*1
26*0
25 *2
24*7
•4*7
25*6
26-6
28-0
29*6
314
33*4
37 *6
39*7
41-8
43*7
45*5
485
49*7
50-6
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8
i
5
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i
20.
21
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19'
I
18
16
14'
5I ?
51-8
5»*5
510
50-2
49-2
480
466
.45*1
1:
3'
5 i
8_
xo
12
14
I
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16
Digitized by
Google
APPARENT PLACES OF STARS, 1882. 35 <
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
Aquil®.
B.A.
Dec. N.
6 Aquilae.
B. A. Dee. S,
a' Capricorni.
E.A.
Dee. S.
a Pavonis.
B. A. Dec. &
Jan. i
ii
21
(Feb. io
20
Mar. a
12
22
Apr. i
n
21
May i
ii
21
Si
(Juneio
20
3°
July io
20
Aug. 9
'9
Sept
18
2S
Oct 8
18
28
Not. 7
17
Dec. 7
*7
27
37
h m
19 49
*
jo* 66 ,
t J°'P ii
p » 3 o-8 3 ;;
30-97
6 6
3113
31-3*
31-54
31-78
3 j -04
3231
'*:*!
33*17
33-46
33*74
34-01
34 *S
34*47
34-65
34*79
34-89
34*94
34*95
34-91
34*85
34*74
16
»9
is
»4
36
»
52-4
Si-o
49*4
48-1
46-9
45*9
45-2
44-8
44-8
45*8
46-8
48-1
49-6
51*4
53*3
34-60 ^69 -7
34-44 "70-1
34**»7
34- 10
33*93
33-78
33-64
33*53
33*46
33*43
33*43
33*47
55-2
S7-«
59-2
6i-i
3
7
10
'3
»S
18
»9
>9
so
*0
*9
18
62*0
6 4 -8 '7
66-i '*
67*3
68-3
69*1
70-2
70-1
;7 09 -8
69-3
68-5
HP
66-4
65-1
63-7
62-3
h
20
s
12-67
12-82
12-94
13-09
13-27
13 - 4 8
13-71
13-96
14-23
14-51
14-80
15-10
:*:is
15-96
l6'22
&t}
l6-80
l6 # 92
I7'00
I7-03
I7-OI
l6§5
16-86
16-74
1659
16-26
16-10
iS'94
15-81
15-70
15-62
15-58
15-57
15-60
10
ia
»5
18
ai
*3
*5
*7
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11
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11
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20
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3 6* APPARENT PLACES OF STARS, 1882.
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aCephei.
B.A.
Deo.H.
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11
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11
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18
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18
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45*59
45*47
45-31
45-16
44*99
44-82
44-66
44*5i
44-38
44-28
44 -ao
is
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16
17
17
ifi
IS
13
43*7
45 -a
46-5
47*4
47*9
48-1
48-0
47*5
466
45*4
43*9
42-1
47*49
47*5<>
47*47
47*4o
47*3o
47-18
47/05
46-91
46-64
46-52
46-42
4«*33
46-27
is
ij
M
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12
10
o 53
27'7
28-5
29-3
29*9
30-5
30-9
3I*0
30-9
30-6
30-0
29'2
28'0
26'7
25*1
23-3
21*4
4",
»9*5
I 7'5
15-6 '»
13-7 19
I2'0
10-5
1
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6-4
5 'I
5'6
s- 6 ,
5-7.,
6-3
6-8
7*4
8-i
89
9*7
10-5
h 1
as <
46-98
469s
46-92
46 ?i
47*06
47*
47*3
47-60
4 »-86
48-17
48 51
48-88
49-28
49*69
50-11
50*53
50*93
51-31
51-65
5**96
52-21
52-40
5* '53
5**59
5**59
52-53
52-41
52-25
52-05
51-83
5»*59
51*35
51-11
50-90
5071
50-55
50-4?
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59*0
'57*5 3
55'7 !
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16
25*8
15*2
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26
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6
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17
19
19
19
18
16
a* 1
633
16
38 -6
*°40-2
"41 -6 *4
" 4 4*-6 I0
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43*4
'•8 -9 J
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36-44
36-41
36-41
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36-60
36-72
36-87
37*06
37-28
37*53
e 1
8 21
69** ,
70-4
70*7 ;
70-9
71-0
70-9
70-6
70-1
37-80
38*09
38-40
38-7I
39*oa
39-3* ;;
39-87
40-10"
40-29
40-44
40-55
40-61
40*63
40-60
40'55
40-46
40*35
40 -aa
40*08
*3
19
'5
11
39*94
39-81
39-69
39-58
39'49
39 '4*
s
3
5
9
IX
13
14
14
*3
ia
11
£2' 4
68-4
67-2
65-8 «♦
16
64-#
6a*5
60-7
58-8
56-9
55-1
53'4
Si-8
50-4
4g-a
48-3
47-5
♦n
46-8
468
469
47't
47-6
48-1
48-7
17
18
'9
19
18
17
16
ia
9
7
49*3
49'9
50-6
51a
51-7
52-2
Digitized by
Got
o
364 APPARENT PLACES OF STARS, 1882.
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
y Aqoarii.
B.A Dee.S.
if Aqoarii.
R. A. Dee. a
SPegasi.
S* A. Deo* JS*
X Aquarii.
R.A. Dec 8.
Jan. 1
11
21
3i
Feb. 10
ao
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3*
Jane 10
20
30
July 10
20
30
Aug. 9
19
Sept
18
28
Oct. 8
18
28
No?. 7
17
Dec 7
17
*7
—.37
h m
22 15
33-82
33-76
33*73
33*7*
m
33-89
3400
58
6*Z
1
8
5
49-0
$■
I X*
499
49*7
34-iS
34 34
34*55
34*79
35-06
35*35
35*05
35 96
36*26
36-56
36-85
37-u
37*34
37*53
37-67
37*7«
37*85
37-87
37*85
37-80
37* 7/
3761
37*49
37-36
37-22
37-09
36-77
36-70
49'3
48-7
47'7
46-5
*7
»9
30
3*
30
30
*9
26
*3
19
M
xx
a
a
5
8
XI
ia
13
14
13
xa
11
9
7
45 % i
43*5
;4i-7
39'9
37'9
35*9
34-0
32*2
30-5
29-0
26-6
25-7
25-0
24-6
24-4
24*6
249
*53
19
18
17
«5
13
11
6-4
27*1
27-8
286
?913
h m
22 29
17*74
17-67
17-63
17-61
17-61
17-72
17-82
10
o /
o 43
26-1
26-8
27-5
28-0
28-3
285
28-4
1796
18-13
18-34
18-57
1883
19-11
19-41
19-72
20*03
20-33
20*62
20*89
21*12
21*33
21-49
2I'6l
21-69
21-72
21-72
21-68
21*61
21*51
21-39
21*27
21*14
2I*OI
20*89
20*77
20*67
^o '59
28-1
26-6
*55
H '
22*
20'
i8«
16-
'4*
12*
II-
12
ia
10
9>
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5-0
4*
3*4
U
"9
"3
•8
'4
•i
•8
6
4
h 1
22 35
34*- 82
34*75
34*6<
3461
34/66
3468
34*75
34*84
34 97
35 14
35*34
35*57
35*83
36*12
36-42
36*73
37*04
37*34
37-63
37-91
38-15
3f*3S
38-52
38-64
38-73
38*77
38*77
38 73
38 -66
38*57
38* 45
38-33
38-20
38-07
37*94
37 82
37-71
37-62
O I
IO 12
A 4 " 5 ,.
ill »
h m
22 46
27-68 t
27-61 {
*7'5S
27*51
11
*9
30
3«
3»
30
«9
a8
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ao
17
ia
61 -I
60*1
!?:?
sj-i
59*3
65
69 ■
7»*
73'
J
27-51
• 7 -«
27-67
»7*79 l6
3'S 2
28-36
»5
28*61
28*80'
29-18
29-49
9.9
i-7
83-3
1*7
85-8
86-7
87*4
87*8
88*o
88-o
29*80
30-11
30-41
30-69
30-94
31-16
3»
3*
30
28
*S
aa
18
JI-4-I 4
87*7
8 7 -2
86-5
*5'7
81
3I-58
31*63
31*64
3I-62
3I-56
3I*48
31*37
31*25
31*12
30*99
30*87
3075
3o*64
3°'SQ
8
11
ia
13
13
xa
ia
11
o 1
8 11
I 1 '' 9 4
82-7 \
2*9
£! \
82-5 J
82-0 s
8
8l*2 ..
80 '
78'
77
75*8
74-0
72-1
70-2
68*2
66-3
64-5
62-8
61-3
6o-o
59°
58-2
57*7
57
57
57'
%
58'
59
60'
60'
61 •
62'
62 -8
63-4
Digitized by
Google
APPARENT PLACES OF STARS, 1882. 365
AT UPPER TRANSIT AT GREENWICH.
Month
and
Day.
Piacifl Australia,
(Fomalhaut)
Ba JL» DOO* 0i
aPegasi.
(Markab)
R.A.
Dec.N,
y Piscium.
R.A.
DecN.
k Piflcium.
B.A. Deo.
Jan* 1
11
21
3*
Feb. 10
20
Mar. 2
12
22
Apr. 1
11
21
May 1
11
21
3i
Jane 10
20
30
July 10
20
30
Aug, 9
*9
Sept
18
28
Oct. 8
18
28
Nov. 7
*7
27
Dec. 7
>7
27
37
h
22
51
7*80
7-71
7"*:
7'5
7-56
7-58
7-63
7-72
10
O I
30 14
54* 4
53'7 ,
53*o ,
52*1 *
h
22
HI
58
I
8S
OS
8*46
50*9
49*5
47-8
45*9
8-73
9'03
935
9-69
»7
so
*4
*7
3*
3»
34
35
10*04
10*38
10*71
II 'OS
43*8
41*0
394
37*i
32*6
3 0-5
285
34
33
3i
29
u-93
12
12*05
1211
12*13
I2 a I0
12*03
II-Q3
II-80
11-65
26-7
25*2
24*0
23*1
22*5
22*3
22*4
22*9
23-6
24*6
25-8
27*2
28*6
30-0
32-0
11 +9 l6 33"7
"'33 l6 34'6 2
"•'7 te35 # a
11*02
10*81
10*7:
14
17
'9
si
22
22
*3
*3
22
21
20
18
15
12
9
6
2
1
5
7
10
12
x 4
14
14
14
12
11
53'4-J
53*3*
53 *4
53*19
53*16
53-16
,53 19
•53*27
53-3S*
535a
53-70
53-92
*5
28
3*
8
O f
•4 34
21*3
54-17
54-45
55 r 3-
55-69 3
56*00 *
5628 •*•
s6
56*54
56 77
5*>-95
57-io
20*0
18*8
l Tl
16*8
16*3
16*0
16*1
i6*5
t*
18*4
19-8
21*5
23*4
%y l
27-8
30*1
13
12
11
9
h n
23 II
3" Si
3*22
3H
3*09
3*06
3*06
|3 *o8
3-14
2 38
32*4
a
38*8
35*5
35*6
57*21
57**7
57*2
57*2
57*3
57*>f
57/06
5694
56*82
56*56
5643
5631
56*21
40*7
42*3
437
44*9
458
46*5
46*9
47*i
3
1
4
8
11
«4
17
19
si
*3
»3
*3
*3
si
so
'9
16
»4
is
47*0
46*7
46*1
45*3
44'4
40.
ti
21*3
20*5
•7
•9
10
3*24
3'37
3*54
V 75
*4
3-99 l6
30
4*54
4*84
5*-5
5'47
6*32
656
76
92
04
II
15
'5
12
06
7
7
31
3*
30
29
26
*4
20
16
18*3
17-8
i7'4
17*3
i 7 -j
17*8
185
19-5
20-7
22*2
23*0
25-8
a7 1
29-8
319
33 - 9
3S 1
37-6
39*2
40-6
12
' 4 2*8
*43'5
6*76
6-04 :
6*52 "
640 "
6*30
6*20
44*
443
44- 1
438
42*8
42*2
4*-5
40*7
39-8
h n
23 20
53* 5« ,
53*4* j
53*28
S-I
38
53 'H
5322
,53 **4
53 -*9
53-37
53*49
53f5
S3-«5
54-08
54'34
54*62
54'9*
55-23
55*54
*3
55-85
56*14
5*5 .
56*85
57*02
57 -«4
57*21
57"
57*29
57*26
57*2i
57*13
57*03
56 03
56*81
5669
56-57
5 f' 4 f
3»
3»
3»
»9
a6
*4
31
«7
36
37'7*
37*3
37* *
37*i
37*4
37*9
38*7
39*7
6+ 1 °
4**5
44*3
46*
48*2
50*2
52*2
54*
56*0
57*7
£1
61*7
62*5
63-1
63*5
63-6
635
633
62-9
62*4
6i-8
6iyi
60-4
12
10
Digitized by
Gbogk
366 APPARENT PLACES OF STARS, 1882.
AT UPPER TRANSIT AT GREENWICH.
June 10
20
30
Jnlj 10
20
30
Aug. 9
19
Sep*.
18
28
Oct. 8
18
28
Nov. 7
*7
Dec. 7
»7
»7
_ 37
55 'OS
55-36
55^7
55 '97
56/25
56-50
56-89
57-03
57"i3
5719
57-21
57-20
57-16
57- 10
5701
56-91
56-80
56-68
56-56
3»
3»
30
s8
»S
si
18
>4
10
11
is
IS
24'<
20 -<
o
o
28-0
30-1
32-1
34-0
35*7
37-2
396
140-4
41-0
41 i
41-6
416
41-4
41*0
40-5
399
39'i
104
33*76 20-1
;t : ?!>>
21'2
22-8
249
86 S4
H' 5 * 75
3«-3* "
38 -96 '
27-3
30-2
39.46 JO 3
37
5f*45 „38-3
56-34 "| 3 7-s
37
, 37
4 8-x »»
'51-8 37
20 36
39-86 53 -4 ,.
39-52 J}* 8 *! 3»
64-5 * 7
68 s 3
37-79 „««•« i;
87 6 9-7 ■;
35*33 7 7o - 3
3446 %s •
39-83 „4°-6
40-05 8
40-13
40-06
33 6* ' 5
!i:|»
33 •>
4861 „34-o
48-953:32' , v
49*9 „30-S Is
49-62 "29-2 *
3*
49'93 t8 »8-2
50-21 276
50-46 a *
5067
27-6
16
5083
50-95
51-02
51-05
15
315
2 15
51-03
50-98
5 ' 00 . il3
13 h
50-65 l4 39 •»„
50-21 *42-i
15
50-06
49*93 ' 3 4*
"9
16
28*1
42-5
426
17*21
I7'<2
17-83
18-13
18*42
18-68
18*91
19*11
19*26
19-38
19-46
19-50
19*51
19-49
19-44
19-37
19-28
19-18
10*07
18*95
18*83
18-72
3*
S»
30
•9
s6
*3
to
"5
12
8
46*8
48*8
50-8
529
58'
60
61
62'
53
♦643
64-8
65-1
65-1
64-9
64-6
64*2
636
62*9
62
61
Digitized by
Google
MOON-CULMINATING STARS, 1882. 36:
AT TRANSIT AT GREENWICH.
Month
and
Day.
Name.
Apparent
Right
Aacenaion.
u
**a
it
Tar. or
(ItfttA.
Sa
i hour
of
Long.
Sid.
Time
of
Semld.
pan'
GSt
Apparent
Declination.
Ver.of
(['•Deo.
in
1 hour
of
Long.
I
Jan. o
Moon I. u.
MoohLl.
A Taori- -
« l Tanri - ■
Moon L u.
Moon I. x*
1 Tauri - -
/ Tanri - -
MoonLu.
Moon I. L>
if Geminor.-
fi Geminor.-
MoonLu.
pGeminor.-
\ Gdninor.-
MoonlLL,
MoonlLu.
g Geminor.-
3 Caacri
Moonll.i*.
MoonlLu.
a Caacri «
« Cancri 4
Moon Ho*
MoonlLn.
h Laonia •
Leonia a
MoonII.L.
MoonlLu.
14 SextantU*
19 Sextantu*
MoonII.L.
MoonlLu.
p* Leonia
p* Leonia
MoonII.L.
MoonlLu.
v Leonia
B. A.C. 4006
MoonII.L.
MoonlLu.
11 Virginia -
X Virginia -
10*7
4i
4i
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5
Si
12*7
3i
3
13-8
4
3i
14-J
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6
15-8
4
5
16*9
6
3i
17-9
6
6
18*9
6
5
20-0
4i
6
h m •
3 47 38*5*
4i5 59 a i3
3 5745*49
41823*60
444 i f io
5 ia 4*86
45* 5"i4
5 053*03
5 39 54*64
6 7*4/01
6 747"9«
6 15 53*00
634*7-50
657 9*38
711*1*31
7 313*33
72911*19
7 39«9*9 8
7 54 4'oa
7 54 35*99
8 1987*03
85a 4-23
9 1*3-59
84346*01
9 7 35*77
9*540-17
9 3453*4
731 0*12
9 54 3*7*
xo 039*20
xo 641*86
10 1651*80
103930*07
I 054-76
1 744*99
11 * 4*70
11*442*13
II 3056*05
11 45 **36
1147*9-11
1032*57
12*743*73
1*3310*81
s
140*8*
141*03
8
68-*7
68**8
•00
•00
•00
+ •01
•00
'00
+ •01
+ •01
140' 71
139*8*
68
67*91
138-
136
i34*o8
131*31
1*8*50
12**8963*5*
16 IT.
.2159 3*6
22 440*7
21 25
20 16
Rr.*i5*3 4 -3
*i 33*1*5
3333
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66'39JN.*0 37 56*7
*0 45
1645
3867
4467
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•01
i*o'3*
118*03
•03
•O*
62*85
62'26
ll6'106l*76
II4*586l*37
113*5*
n**95
11**91
113*42
114*50
116*17
6i*ii
60*98
6i-oo
61*17
61
61*97
o 1 It
■f.*o53 43*8
*i 35 *4*o
2146
23 I
65-70 N.19 37 38-0
64*97 18*313*3
X848
17 38
1*5*6564**4^.165636*3
15 19 3*8
12 19
11 8
N.1332 3-1
113658*5
1014
10*6
935 n-6
7*7 59*8
611
51*
N. 5 1636*0
3 * IO'O
236
034
N. 45 48*9
1 31 ***o
II
441
49 s.
34816'
6 347*
848
7«i
353*9
163* 5
+ 73*1
- 16*6
- 103*9
- 187*4
- **5*7
337'9
403*3
461*6
513*6
556*4
593*3
633* 5
647*5
- 665*5
- 677*9
- 684-7
- 686**
- 68**o
— 67a* 1
15 ao*6
15 16*4
56 13*0
55 57*6
151*5
15 87
5 # i
i*7
1458*6
55 43*o
5539*1
55 16-0
55 3*6
54 5**i
14 55*6
1453-0
1450*6
1448*6
1447*0
14 45*7
1444*9
1444*6
544«*3
54316
54«3*o
5415*6
54 9*6
54 5*o
54 a* 1
54 0-9
1444*8
1445*7
1447**
1449*2
54 i*8
54 4*9
54 io* a
54i7*8
145**05428*0
1455*55440-8
Digitized by
Google
68 MOON-CULMINATING STARS, 1882.
AT TRANSIT AT GREENWICH.
Month
and
Day.
Name.
1
I
Apparent
Right
Ascension.
Var.of
('■1LA.
in
1 hoar
of
Long.
Sid.
Time
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MOON-CULMINATING STARS, 1882. 369
AT TRANSIT AT GREENWICH.
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1
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Right
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37o MOON-CULMINATING STARS, 1882.
AT TRANSIT AT GREENWICH.
Month
and
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MoonUVrj.
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Moon H.v.
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MOON-CULMINATING STARS, 1882. 371
AT TRANSIT AT GREENWICH.
Month
1
Apparent
h
■Jfr .
Var.of
in
Sid.
Time
of
Apparent
Var.of
C'bDoc
in
|
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and
Day.
Name
Right
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Feb. 20
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N. 8 37
Digitiz
-d t
)y vjC
t b a
372 MOON-CULMINATING STARS, 1882.
AT TRANSIT AT GREENWICH.
6
2
i
1
1*
Yar.of Sid.
Tar. of
1
Month
and
Name. .
Apparent
Right
<Ts JUL Time
in | of
x hour Semid.
Apparent
Declination.
ODec.
in
xhour
Day.
Ascension.
If
of
Long.
pass*
Merid.
of
Long.
'i
i
1
h m a
■
8
s
•0 / n
ft
1 *
1 *
Mar. 3
Moonl.u. X3'9
10 7 8*30
"4'53
61*13
N. 6 952*5
- 648*8
1443-6
5357-3
Moon I. l.
-
102958-59
113*92
60*96
3 58 26*2
- 664-5
1444*2
5359-4
34 Sextantis*
6
103634-60
•OO
. 4 1*
B.A.C. 3726
6
1046 12*70
+ *0I
139
4
Moon I. u.
j»* Leonis -
v Leonis
14-9
5
4i
1052 44-11
ix 746*00
113057-12
•OO
+ •01
113-73
60*90
N. X 4428*1
N. 034
8. 10
- 674-1
i445"i
54 *'9
5
Moon ILl.
.
111731*84
113-99
6o*g7
s. 03048*6
— 677-6
1446-5
54 7*8
Moonll.u.
«S9
114023*46
114-69
61*17
8. 246 9*8
- 674*9
1448-1
54I3-9
jB Virginis -
3i
"44 35-6*
+ *0I
N. 2 26
11 Virginia -
Ji
121354-79
+ •01
8. I
6
Moon II. i*.
-
12 326*02
115-81
6i-49
9. 5 19*6
- 665-7
1450-1
54*1*3
MoonlLu.
16*9
122644-74
117*38
61*93
7 12 0*0
- 649-9
H5* # 5
5430-0
X Virginis -
5
123312-14
+ •02
7 20
^ Virginis -
5
124815*74
+ •01
854
7
Moon ILl.
.
125024-75
119*36
62-49
s. 91949*8
— 627*2
14 55*3
5440-0
Moon ILu.
i8'o
13 14 31*00
121*75
63*16
XI 22 25*2
- 597*4
1458*4
5451-4
a Virginis -
X
13 19 1*26
+ •02
10 33
h Virginis -
5
13*647*75
+ '02
9 33
8
Moon II.L.
•
1339 8*ii
124*50
63*92
8.13 1817*8
— 560-1
15 x-9
55 4'3
Moonll.u.
19*0
14 4*°'i7
127-56
64*76
15 5 555
- 514-9
15 s-s
5518-6
A Virginis -
4J
14 1246-15
+ *03
12 50
a Libra
H
144423*58
+ •03
15 33
9
Moon ILl.
-
1430 io*6o
130-88
65*66
8.164343*1
- 46i-7
15 xo* 1
55 345
Moon ILu.
20*0
145641-79
134-34
66*59
1810 x*9
— 400*1
15 14-9
55 51-9
i 1 Libra
44
15 5 3***9
+ *03
1920
f 1 Librae
4
152138-58
+ "03
16 18
zo
Moon ILl.
-
152355-01
137*86
67-52
8. 1923 11*5
- 330-*
15 20*1
5611*0
Moon ILu.
21*1
155149*98
141*28
68*41
20 21 33*1
— 252*1
15*5-7
5631-5
jB 1 Scorpii -
2
155836*84
+ '03
1929
v* Scorpii -
4
16 5 10*50
+ •03
19 9
11
Moon ILl.
•
162024*82
144*4869*23
8.21 3 30*8
- 166-3
15 3I-7
5653-5
Moon ILu.
22 'X
164935*91
147*3069*94
21 27 37*1
- 73*7
1538*0
57i6-7
B.A.C. 5758
6
1659 11-26
+ •03
21 24
£ Ophiuchi-
5
171357*86
+ •03
20 59
X2
Moon ILl.
-
17 19 18-03
149*63
70*52
S.21 32 37*5
+ *4'5
15447
5741-*
Moonll.u.
23*2
174924-62
151*36
70*95
211734*7
+ 126-5
1551-6
58 6-5
4 Sagittarii-
5
175237*00
+ •03
.
2348
9 Sagittarii-
4i
175639-87
+ •03
2422
13
Moon ILl.
•
18 1948*20
152*46
71*21
8. 20 41 54*2
+ 230-4
1558-6
5832-2
Moonll.u.
24-2
185021*09
152-92
71-31
194527-8
+ 333*7
16 5*7
5858-0
• Sagittarii-
4
185737-89
+ •03
*155
w Sagittarii-
3
19 246*02
+ •03
S.21 13
Digitized by
Googk
MOON-CULMINATING STARS, 1882. 373
AT TRANSIT AT GREENWICH.
Var.of
Sid.
Var.of
i
Month
I
*
Apparent
<Ta&A.
in
Time
of
Apparent
(['■Dec.
in
i
I
and
Name.
Right
J*
1 hour
8emid.
Declination.
1 hour
of
Long.
Jg
P*
Day.
Ascension.
of
Long.
llertd.
1
8
h m a
B
a
a
9 ft
H
9 *
9 n
Mar. 14
Moon XL l.
-
192055-94
152-80
71*26
8.182836*7
+ 434*1
16 12*5
59*3*1
MoonII.tr.
25-2
19 51 26*41
152*21
71*09
1652 xi*6
+ 5»8'9
16 19*0
59 47*i
«* Capricorni
34
20 ix 31*21
+ -03
"55
v Capricorni
5
20x4 7' 80
+ •02
13 «
15
Moon II.L.
-
202x47*67
151-29
70*84
S.X4 57 34*o
+ 6x5*8
1625*1
60 9*3
Moonll.u.
26*3
205156*55
150*18
70-54
124633-5
+ 692*4
x6 30*5
6028*9
16
Moon IX l.
.
21 21 51*73
149*03
70*22
S. IO 2X 25*9
+ 756-7
1634-9
6045*2
Moonll.u.
*7*3
21 51 33*56
•47-97
69*93
744 48-0
+ 807*1
1638*3
6057*6
l 7
Moon II. l.
-
22 21 3*84
147*12
69*69
S. 4 59 35*5
+ 842-3
1640*5
61 5*7
Moonll.u.
*8'3
22 50 25'37
146-53
69-53
S. 2 857-2
+ 86x*3
1641*4
6x 8*9
18
Moon II.L.
-
23 19 41*64
146*24
69*44
N. 04350-8
+ 863-8
1640*9
6x 7*0
z 9
Moonll.u.
29-4
*3 48 56-35
146*26
69-44
K. 3 35*9*0
+ 849*8
1638*9
6059*9
Moon I. l.
0x553*99
146*54
69-51
62241*8
+ 819*7
1635-6
6047*9
20
Moon I. u.
1*0
04515*21
147*03
69*64
N. 9 2 2 X * O
+ 774*4
16 31-1
60 3 1 • 3
Moon I. l.
-
11443*03
147*62
69*81
xx 3x33-0
+ 7*5'4
1625*5
60 xo*8
21
Moon I. u.
2*1
1 44 18*09
148*21
69-97
N.I3 47 43-I
+ 644*4
x6 19*0
5946-8
Moon I. l.
-
2x359-53
148*66
70*11
X5 48 38*5
+ 563*3
16 xi *7
5920*1
22
MoonLu.
3'i
* 43 44' 95
148*85
70*18
N.X7 32 3 2-4
+ 474*5
x6 4*0
5851-7
Moon I. l.
31330*41
148*65
70*17
1858 6-3
+ 380*4
*5 55'9
5822*2
*3
MoonLu.
4 # i
343 10-80
x 47'99
70*03
N.20 430-7
+ 283-3
'5 47-8
57 5*'- 3
Moon I. l.
-
4 1240*14
146-81
69*77
2051 23*8
+ 185*6
*5 39'7
57*2-8
B.A.C. 1242
6
35415-66
— *02
1952
A Tauri - -
44
3 57 44*34
— *02
2x45
24.
Moon I. u.
5**
44x5112
145 -xo
69*37
N.2X 1850*6
+ 89-3
•5 31-9
56 54-1
Moon I. L.
5 1040*69
142*91
68-85
21 27 19*4
- 3*8
15 *4*4
5626-9
1 Tauri - -
5
456 4-08
— •ox
21 25
C Tauri - -
3i
53037*28
— '02
21 4
*5
Moon I. u.
6'2
5 39 0*46
140*32
68*2i
N.2I I7 37-9
— 92-2
15 17*5
r»6 x-5
Moon I. l.
-
6 647*18
U7'43
67*48
205048*1
- 1750
15 11*2
5538-3
X 1 Orionia -
44
5 47*5*34
— •02
20 15
ri Geminor. -
34
6 747'"
-•03
22 32
26
Moonl.u.
7*3
6 33 57'94
134*35
66*69
N.20 8 2*9
- *5**4
15 5'5
5517-4
Moon I. l.
-
7 031-24
X3X*2I
65*87
19 I0 40*5
— 321*2
15 0-5
54 59*0
(* Geminor. -
4
657 8*71
— '02
20 45
A .Geminor. -
34
711 20-84
— *02
1645
*7
Moon I. u.
8'3
7 26 27-06
128*12
65*05
N.18 2*4
- 384*1
1456*1
5443'-*
MoonLu
75146-63
•
125*18
64*26
163730*2
- 440*2
*4 5**5
5430-0
g Geminor. -
5i
73919*65
— •02
1848
CCancri -
44
8 528*94
— *02
N.18
Digitized by
Google
374 MOON-CULMINATING STARS, 1882.
AT TRANSIT AT GREENWICH.
Month
and
Day.
Name.
1
I
Apparent
Right
Ascension.
3*
u
Tar. of
(L'sELA-
in
1 hour
of
Long.
Bid.
Time'
of
Semid.
JSrid.
Apparent
Declination.
Var.of
('■Deo.
in
1 hour
of
Long.
I
1
i
1
Mar. 18
Moon I. u.
Moon Li*.
B.A.C.2872*
A 1 Cancri *
9*3,
6
6
h m b
8 16 32-29
84047*3*
82715-03
83644-50
8
— -02
— •01
s
122*48
120 '08
■
63-51
62-84
1 n
N.15 423*3
132158-9
1340
13 6
w
- 489*9
- 533**
1 w
1449*7
*447'5
9 *
54*9*5
54 "*4
*9
MoonLu.
MoonLi*
h Leonis •
Leonis *
10-4
6
3*
9 4 35*65
928 1*76
92540*53
93453*66
— •02
-•01
118*04
116*38
62*26
61-77
W.113131'5
934W1
10 14
1026
- 570-4
— 6ox-$
14460
*445*i
54 5*9
54 **7
30
Moon I. u.
Moon I. l.
B.A.C. 3438*
i6Sext«ntis«
ii'4
H
6
95110-54
10 14 7*13
95840-36
10 3 647
— -01
— -oi
115-15
114-36
61-40
61-15
N. 731 io-i
5*3 34'*
5 35
6 45
- 627-5
- 647-5
1444*8
1445*1
54 i*6
54 **7
3i
Moon T. u.
Moon I. l.
B.A.C. 37*6
^Leonis -
ia-4
6
6
103656*85
105945*12
1046 12 "68
10 57 37*oo
— •01
— •01
114*01
114*11
6l '02
6l '02
N. 3 12 32*0
059 ta*3
139
N. 038
— 661-9
- 670-4
'445*9
H 47**
$4 5*7
5410-3
Apr. z
Moon I. u.
Moon I. L.
v Leonis
BJlCX 4006
13*4
4i
6
xi 22 37-38
114539*06
11 3057-21
11 45 3-62
-co
•00
114-67
115-68
61-16
61*42
S. 1 15 H'4
3*9 34*6
10
441
- 673-0
— 669-3
1448-9
1450*9
5416-5
54*4**
a
MoonLu.
Moon I. L.
BA.C. 4201
X Virginis -
H*5
6
5
12 855*56
12 32 32*01
12 2155*88
12 33 12-38
•00
+ •01
117*14
1 19- 01
6i*8o
62-30
S. 5 4*31*5
. 75*43*7
8 1
721
- 659-0
- 641-8
14 53*4
1456-1
54 33'i
5443*i
3
MoonlLu.
50 Virginia -
a Virginia -
»5*5
6
z
125839-13
13 3 37*76
13 19 1*63
+ •01
•00
121-38
62-91
8. 95844*9
9 4*
1033
- 617*1
1459-1
54 54*i
4
Moon II. l.
MoonlLu.
B.A.C. 4679
B.A.C. 4700
i6- 5
H
6
13 23 11-14
13 48 16-50
13 58 7-07
14 426*89
+ •01
+ -02
124*01
126*93
63-62
64*40
8. 11 59 4-0
135* 5*5
1424
'5 45
- 584*7
- 544*i
15 2-4
15 5*9
SS 6-i
5519-0
5
Moon II.L.
Moon ELu.
a Libra
r* libra
17*6
*i
5§
I4I3 58*26
I44O 18*36
I44424-I7
15 016*94
+ -03
+ *02
130-06
133*31
65*23
66*09
8.1536 9*5
17 9 33*7
15 33
16 a
- 495*1
- 437*5
15 9-6
w 5i3*5
55 3**5
55 46-7
6
MoonEE.L.
MoonlLu.
A. Libra
B.A.G 5281
18-6
6
6
15 7 17-60
15 34 55*17
154632-15
15 51 9-02
+ •03
+ •02
136-56
139-67
66-95
67*78
8.183035-7
'9 37 34*9
19 49
2038
- 371*4
- 297-1
15 17*6
1521*8
56 i*7
5617-4
7
Moon II. l.
MoonIL u.
B.A.C. 5663
B.A.C. 5700
19-6
16 3 8-71
163154-25
164629*84
16 50 10*54
+ '03
+ *03
142-53
H4 * 99
68*53
69*18
8.202857*1
21 3 17-9
20 13
8. 19 21
- 215-4
- 127*1
1526-3
1530*9
56 33* 6
5650-5
Digitized by
o
MOON-CULMINATING STARS, 1882. 375
AT TRANSIT AT GREENWICH.
Month
aad
Day.
Kama.
Apparent
Right
Ascension.
to
"is
is
*E3
Var.of
in
1 hour
of
Sid-
Time
of
Somid
£rid
Apparent
Declination.
Var.of
O Dec.
in
1 hour
of
Long.
Apr. 8
10
11
II
«4
»5
16
18
19
21
H dr w B 1 f i ff f-
MoonlLc
58 Ophrachi
BJLC. 6081
MoobILl.
r l Sagittarii
pSagittarii
MoonJLlJr*
MoodUjo.
/Sagittarii-
jB Capricorni
MoonlLx*
MoonlLu.
14 Capricorni
9 Aquarii
MoonlLx*
MoonlLu.
( Aquarii -
c 1 Capricorni
MoonlLx.
MoonlLu
MoonlE.L.
MoonlLu.
Moonll.u
Moonll.u.
MoonlLL.
MoonlLu.
MooaLjl.
Moon I. u.
Moon I. l.
Moon I. u.
Moon I. l.
Moon I. u.
Moon I. l.
Moon I. u.
Moon I. u
f Tauri - -
X 1 Ononis -
20*
5
6
7*7
h m »
17 1 6-js
17 3614*16
1753 * # *9
18 023*11
21*7 x8 3013*21
1847 4-85
183043*49
+ '03
+ •03
*49*S
149-21
5
3
2 S *j
5
44
19 o i-tjs
*943*59
193930*50
201424*38
J 19
+ •03
+ •03
+ •03
+ •03
«9 59»3'99
2830*73
20 3241*87
21 3 ii'ai
H
4i
44
82
57 33**4
1 2622*22
21 31 29'26
213843*66
144-62
I4360
25*9*2
2155 o*44
*3 3i'35
26*
225159*33
9J23 2029*07
27*9
29*0
0*6
i'7
2*7
3'7
1*349 5'35
017 52 45
04653*91
I l6 12*00
143*7*53
2 13 l8'50
243 22'58
3*3 34'7i
34348*08
413 54*77
44346*27
51314-38
54a "'75
53036*84
54724*91
14694
148*30
a
69*69
70*06
or*
8.21 1926*7
21 16 31*5
2137
2020
70*2
70*33
7*
148-83
148*05
14699
*45'79
70*2
70*07
6 8.
80 8.
69
69*50
142*83
*4*'39
69*1
68-91
.2054 1-7
20 11 50*1
2*53
21 16
19 10 14-4
174956*5
20 3
15 9
,1612 1*0
*4i7 53'i
152a
n 51
12 916*5
948 io*9
823
9 37
69k. 71651*0
55 4374^-9
9 8-
142*3468*50
142*69
143*42
144*48
H5 '79
147*23
148*60
149*85
150*76
151*17
15095
150*04
148*43
146*15
H3'33
5J»4'5
68*56|n. 053 17*7
71 N. 3 39 30'4
95 62216*4
25 K. 85838*9
59 "*5 44*9
69*94 17.134051*0
*5 N,
70
70*48
60 N,
70
70*57
70*37
70*01
M541 29*8
172535*1
,1851 26*3
*9 57 53'8
K.204420'5
21 1040*9
69
68*8i
48 X.
21 17 19*8
21 5 7*8
21 4
N.20 15
it
- 33'6
633
15 35*757 80
1540*6
5726*0
+ 161*8
+ 259-9(15 50*7
I545'657 44"5
58 y%
315'S
446
15 55*9
1*0
616
53* # 5
608
16 6*i
io*9
416
5859*4
59*7'i
676-0
733*0
16 15*
1619*5
459
778*3
810*9
829*9
834-7
824*9
800*3
761*02626*
707*7
1623'
1625'
1627'
16 29*
1629'
1628'
+ 641-3
5-53-4
476*0
381*5
282*6
181*8
81-9
I4'7
106*3
1623*
1619*
16 14*
16 8'
16 r
15 54'
15 47*
1540-
15 33'
1526*
5822*1
5840*9
33*7
59 48-6
60 I*£
60 12*0
60 19*5
60 23*5
60 24'0
60 20*5
60 13*0
60 1*7
59 4*3-7
5928*4
59 7'i
5843-6
5818*4
57 5*'i
57*5-5
5659*0
56 33 # »
Digitized by
Google
376 MOON-CULMINATING STARS, 1882.
AT TRANSIT AT GREENWICH.
1
Month
and
Kama.
1
Apparent
Bight
1*
Tar. of
C'sBJL.
in
1 hour
Sid.
Time
of
BemkL
Apparent
Declination.
Var.of
C'sDee.
in
1 hoar
1
£
Day.
1
Ascension.
of
Long.
JSSd.
of
Long.
1
&
h m •
s
s
8
t *
f
i m
Apr. 22
Moon I. u.
4-8
6 1032*62
140*09
68*03
N.2035 14*6
- 191-4 15 19*5
56 8-7
Moon I. l.
-
638 12*97
136-60
67-17
1949 3-6
— 269*1
15 132
55 45*8
H Geminor. -
3
61550-75
— '01
**34
y Geminor. -
*i
63055*09
— •02
1630
*3
Moon I.u.
5-8
7 5W74
133-02
66*28
N.1848 6*1
- 339' *
15 7*5
5S*S"o
Moon I. l.
-
7 3i*S-74
12950
65*38
'7 33 55-4
- 401-4
15 25
55 6*4
\ Geminor. -
3i
7x120-35
— •01
1645
68 Geminor. -
5i
72654*01
— •01
16 5
24
MoonLu.
6-8
75659*45
126*16
64-51
N.16 8 4-0
- 456-0
14 58* 1
5450-3
Moon I. l.
-
82154-68
123*10
63-70
1432 0-9
- 503-4
14 54*4
54 36-7
f 1 Cancri -
4i
8 5*8*47
— •02
18
8 Cancri -
4
838 0-73
— •01
1835
*5
MoonLu.
7*9
84615*34
120*40
62*98
N.i a 47 9*o
- 544*1
«4 5i*4
54*5*9
MoonLL,
-
910 6-i8
118*14
62*35
105446*7
- 578-6
14492
54178
a Cancri •
4
85* 3*95
— •02
12 19
k Cancri *
5
9 i*3*39
— •02
11 9
26
Moon I. u.
8-9
9 33 3**53
116-33
61*85
N. 856 6-7
— 607-1
1447*8
54126
MoonLL.
-
95640*10
115*01
61*47
65217*5
- 630-2
1447*1
54 xo-o
B.A.C.3336*
6
9 39 58*75
— •02
715
v Leonis •
5
954 0-92
— •02
8 37
27
MoonLu.
9*9
101934-90
114*20
6l*22
N. 444*4*5
- 6478
1447*0
54 9*8
MoonLL.
-
104a 23*03
113*91
6l*II
23332-3
— 66o-i
1447*7
54 12*2
34 Sextantis*
6
103634*29
— •01
412
B.A.C. 3726
6
104612-44
— •OI
139
28
MoonLu.
11*0
11 5xo*74
114*13
6l*I4
N. 02044-8
— 667-0
i449*o
54 16-9
MoonLL.
-
11 28 4*25
114*87
61*32
B. I5*5*'3
- 668-3
1450*8
54*3*8
e Leonis -
5
112419-78
— •01
22X
v Leonis -
4*
11 3057*06
•OO
10
29
MoonLu.
X2*0
11 51 9*70
1x6*12
61-63
B. 4 6 9-6
- 663-6
14 53*3
54 3**8
MoonLL.
-
121433*11
117-86
62*08
61753*3
— 652-6
1456*2
5443*4
B.A.C. 4201
6
122155*85
•OO
8 1
21 Virginia -
6
12 2744*26
•OO
848
30
MoonL u.
13-0
12 3820*24
120*07
62*65
B. 82643-8
- 634*6
14 59*5
54 55*6
1
MoonLL.
-
13 * 36*48
122*71
63*33
1031 14-1
— 609*1
15 3-2
55 9*o
ty Virginis -
5
I248 16*07
•00
8 54
BJLC. 4394
6
13 2 26*5I
•OO
821
Kay 1
MoonLu.
14-1
13 2726*65
125-71
64*10
B. 12 2950*2
- 575*5
15 7*i
55*3*5
MoonLL.
-
13 5*54*79
129*02
64*96
142051*5
- 533**
i5ii*3
55388
85 Virginis -
6
133917*19
+ •01
15 10
B.A.C. 4679
H
1358 7*29
+ •01
14*4
2
Moon I. u.
a Libra
15*1
**
14 19 3*85
144424*53
+ •01
132*52
65*86
8.16 230*9
1533
- 481-8
15 15*7
55 54*7
v* libra -
si
15 017-33
+ •02
B.16 1
Digitized by
Got
o
MOON-CULMINATING STARS, i88z. 3 77
AT TRANSIT AT GREENWICH.
Month
and
Day.
Kama.
i
Apparent
Right
Ascension.
i
Var.of
tn
i hour
of
Long.
Sid.
Time
of
flemid.
Mend*
Apparent
Declination.
Var.of
in
i hoar
Long.
i
W
May 3
13
Moon IX L.
MoonlLu.
B.A.C. 5109
B.A.C. 5281
MoonlLL.
MoonlLu.
rj> Ophiuchi
w Ophiuchi -
MoonlLL.
MoonlLu.
B.A.C. 5866
c* Ophiuchi «
Moonll.L.
Moon ILu.
21 Sagittarii-
B.A.C. 6292
Moonll.L.
MoonlLu.
B.AC. 6658
e 1 Sagittarii-
Moonll.L.
MoonlLu.
p Capricorni
14 Capricorni
Moon ILl.
MoonlLu.
1 7 Aquarii -
c* Capricorni
Moonllx.
MoonlLu,
44 Aquarii -
k Aquarii •
Moon U.L.
MoonII.u.
k Piscium -
\ Piscium
MoonlLL.
MoonlLu.
d Piscium «
Z Piscium «
MoonlLL.
Moon II. u.
161
6
6
172
5
5
l8*2
6
5
19*2
5
6
20*3
6
6
21-3
5
5
22'4|2
6
4i
h m ■
1448 8-99
151544-80
i5»5 53'5°
iS5i 9*55
1544 0-94
16 12 53*38
16 17 15*42
1625 12*13
1642 x6*o6
171a x*37
171741*64
17 24 16*46
1742 0-58
18 12 4*64
18 1822*36
182426*62
X842 4*89
19X153*93
19 21 16*09
19 34 0*28
19 4I25*97
20 1037*38
20 22 X0'08
20 3242*69
20 39 26*69
* 7 54'47
21 1638*61
13844*43
a 1
136*23 66*77
139*71 67-65
8.
+ •01
+ •01
+ *02
+ •03
+ '03
+ •03
+ *©3
+ •03
+ -04
+ •04
+ •03
+ •03
*3 m A
5§
5
*4*4|
4i
5
*5'f
54
4i
21 36 3*05
2 3 56*29
22 I0 58'52
22 31 40*23
22 31 39'io
22 $9 17*11
232054*34
2336 2*77
23 2656*23
*3 54 4* '37
o 14 32*66
042 34* 61
142*93
*45'73
147-95
149-48
150*26
150*29
149*65
148*44
146*85
145*04
143 -, 9
141*47
140*02
138*93
138*29
138*13
26*5
02241*02
05056*84
13847
139*30
140*55
142*14
68*47
69*19
69*76
70*17
70*39
70*43
70*31
70*05
69-69
69*26
68*82
68*40
68*03
67-74
67*56
67*50
o t n
17 3* 57*5 -
1850 19*0 —
19 16
2038
8.195247*4
203843-1
1946
21 13
8. 21 640*2
2II5 33-4
21 20
2352
8. 21 442-0 +
20 33 52*9 +
2036
1859
s. 194321*8
183352*0
X836
1634
8.17 631*0
152247*1
18 12
15 22
42X*0
351*0
272-3
185*8
92-8
4-6
104*2
203*8
.132425*1
ix 13 21*2
9 49
9 37
. 85x41*6
621 38*5
5 59
4 5o
. 3 45*8*6
. 1 5 33'4
. 036
1 8
67-56
67-74
68*02
68*39
X35 4X*
4 '5 4*5'
7 3*
6 57
N. 652 11*4
N. 92221*8
300*8,
393 **
479'o
556-8
625*3
683*6
731*1
7^7*5
792*2
805*0
805*4
793*4
768*6
731*0
■ *
5 20*0
5*4*5
529*0
5 33*3
537-6
5 41*7
5 45'7
5 49*6
5 53'*
5 56-6
5 59*9
6 2*9
6 5*7
6 8*2
6 10*5
6x2*4
613-9
615*0
615*6
615*6
/ *
56x0*8
5627*2
5643-5
56 59-5
57 15'*
57 30*3
57 44*9
57 58-9
5812*3
5824*9
5836*8
5847*9
5858*1
59 7*4
5915*6
5922-5
59281
5932-0
59 34'*
59 34**
6 x5*o
613*7
5932*0
59*7*5
Digitized by vjOC
O
378 MOON-CULMINATING STARS, 1882.
AT TRANSIT AT GREENWICH.
Month
and
Name.
1
Apparent
Bight
9
Var.of
in
thou*
Time
of
Semid.
Apparent
Declination.
Var.of
(['■Dec.
in
1 hour
-•a
i
Dftj.
i
Ascension.
i*
A
ErtiL
of
Long.
i
$
h m a
a
. 1 .
1 ft
9 *
9 m
May 14
Moon ILi^
-
H9 33*7
143-96^8*81
rf.1143 45'8
4- 680-9
16 11*859*0-4
MoonlLu.
*7'5
14832*16
145-8669-26
13 S3 Si'i
4- 6x8*7
16 9-2
5910-8
15
Moon IX l.
-
a 17 53*41
147*66
69-68
*f.i5 50 29*7
+ 545*3
16 5*9
5858-7
MoonlLu.
28*6
* 47 34* 76
149*17
70-04
17 31 24*0
+ 462*2
16 1-9
58 44-3
16
Moonllx.
-
31731-6*
150-21
70*28
V. 18 5451*5
+ 37* '*
X5 57-4
5827*6
17
MoonLu.
0*3
345 s6*6i
150*63
70*39
»-i9»Si-4
+ «74*7
«S5*'4
58 9**
MoonLi*
-
4*5*3'iS
150-33
70-3*
•0 4431-9
+ »7S*x
1546*9
57 49*
18
Moon I. u.
1 'a
445*1*44
i49-»5
70*07
W.21 933*3
+ 75*3
1541-1
5728-0
Moon I. l.
-
515 204
*47'39
69*63
axx447'J
- aa*3
15 35*
57 6-a
»9
Moon I. u.
**3
54416-17
144-86
69*03
N.ax 055*2
- 115-4
1529-1
5644c
Moon I. l.
-
6 1256-4*
141-77
68*29
2029 1*9
— 202 *2
1523-1
5622*2
40
Moon L u.
3*3
64©57'*S
138*32
67*45
N.1940 31-0
- 281-6
X5>7*4
56 x-ij
Moon L l.
-
7 815-23
134*66
66*55
18 3656-7
- 352*7
1511*9
5S4X'»
C Geminor. -
A. Geminor. -
4
3i
657 7-92
7 11 20*04
— •01
— •01
2045
1645
tx
MoonLu.
4*3
7 34 49*07
130-99
65-64
N.i7i9 59*4
- 4X5*4
15 6-9
55 ** B 5
Moon I. l.
-
8 39-46'
"7*44
°4*74
i5 5xi9*S
- 4699
15 a-3
55 5-3
1 Cancri -
6
75018-93
— •01
16 6
5 Cancri •
6
7544818
— •01
1647
ft*
MoonLu.
5*4
82548-69
124*15
63*90
N.i4i2 33*7
- 5x6*5
1458-2
5450*8
Moon I. l.
-
85020-44
121*21
63*14
122513*7
- 555*7
1454-8
54 38*3
a Cancri •
4
85* 3*5*
— •01
12 19
* Cancri •
5
9 i»3 # 03
— •01
11 9
*3
MoonLu.
6-4
91419-37
118*69
62*48
N.IO 3044*2
- 588*1
1452-1
54*8*3
Moon I. l.
-
93750-96
116*6661*94
83023*2
— 614*41450-0
5420*9
Leonifl •
3i
9 34 5**93
— •01
• I026
t Leonia •
5
9 54 o*57
— *0I
8 37
*4
MoonLu.
7*4
10 1 1*17
115-13
61*53
N. 62522*6
- 634-8,1448-8
54162
MoonL l.
-
102356*32
114*15
61*26
41649*6
— 649*8 14 48 *a
54X4-3
19 Sextan tis*
6
10 641*82
— •01
5 1*
34Sextantis*
6
103633-97
— *0I
412
*5
MoonLu.
8-5
104642*95
113*72
61*14
N. * 5 47*5
- »S59*7 | i4 48*4 54i5"o
MoonLi*
-
11 92779
113*85
61*17
s. 641*4
- 664*31449*4
54x8*5
»* Leonia -
6
105736-48
— •01
N. 038
p i Leonia -
5
" 745*54
— •01
N. 034
26
MoonL u.
rs
113217-57
"4*54
61-35
8. 2 19 34-8
- 663*7|i4 5i*i54 24*7
MoonL l.
-
ix 55 19*06
115*80
61*67
43148*2
- 657-61453-55433-4
B.A.C. 4006
6
11 45 3**7
— •01
441
13 Virginia -
6
12 12 39*98
— •01
8
*7
Moon I. u.
10-5
12 18 38*94
117-61
62*14
S. 64212*8
- 645-5 1456-55444-5
MoonL l.
-
124223*71
119-94
62*75
»49 34*x
- 626*915 o*!J54 57*8
X "Virginia -
5
1233 x ** 2 3
— •01
7*x
* Virjrinis -
5
124815-94
— '01
8. 854
_
Digitized by vjOC
O
M
mjiM-i
^u
IjIVJIP
MAj
I IN
u
mak:
S 18
82.
379
AT TRANSIT AT GREENWICH.
Month
and
Day.
Name.
O)
Apparent
Right
Ascension.
<
Var.of
CsSX
in
1 hour
of
Long;
Sid.
Time
of
Semid.
fimid.
Apparent
Declination.
Var.of
ODeo.
in
1 hour
of
Long.
1
t
1
May 28
MoonLu.
Moon Li»
a Virginia -
h Virginia -
ii-6
1
5
h m ■
13 6 3954
13 31 32*08
13 19 1*68
132648*23
■
•00
•00
e
122*78
126*05
1
63*48
64*32
/ <r
S. 10 52 30*0
124929*9
1033
933
— 6oi*i
- 5*57*5
• *
15 4*3
15 89
■ it
55 13*1
5530*0
»9
MoonLu.
Moon Lib
A Virginia -
a Libra)
12*6
4i
1357 6*21
142325*69
14 1246*98
14 44 24' 67
•00
•00
129*69
133*59
65*24
66* 2a
8. 143854-3
16 1855*0
1*50
,15 33
- 5*5M
- 471*4
I5I3*9
15 192
55 48-3
56 7*7
30
MoonLu.
MoonL l.
t l Libra - -
RA.C. 5109
iy6
4i
6
145032*76
151827*79
*5 5 33*54
15*5 53*75
•00
•00
137*60
wss
67*22
68*19
8.17 47 37*0
19 3 i*4
19 21
19 16
- 4«*9
- 340*5
15*4*7
1530*2
5627*8
5648*2
3*
MoonLu.
MoonL l.
8 Scorpii -
l Scorpii -
*4'7
a
15 47 «*97
16 16.32*00
155325*40
155838*46
•00
+ •01
145*25
148*49
69*09
69*88
8. ao 310*2
204613*2
22 17
1929
- »59'4
- 169*7
1535*8
'5 41*2
57 8*5
5728*2
June 1
Moon II.u.
B.A.C. 5758
58 Ophiuchi -
15*7
6
5
164851*08
165913*25
173625*48
+ •02
+ *02
151*16
70*50
8. 21 1034*2
21 24
2137
- 72*8
15 46*4
57 47**
2
Moon ILl.
MoonlLu.
It Sagittarii-
21 Sagittarii-
16*7
4
5
17 19 16*26
174956*91
18 646*18
18 1823*02
+ *0I
+ *02
152*38
153*7*
70*93
71*15
3.21 15 0*4
205846*9
21 5
20 36
+ »9*i
+ 133*3
i5 5i*2
1555*7
58 51
5821*3
3
MoobILl.
MoonlLu.
B.A.C.6536
d Sagittarii-
17-8
6J
5
182042*04
1851 21*16
19 124*47
191047*41
+ '02
+ *03
153*65
152*74
71*15
70*96
8.20 2142*7
19 24 12*6
I928
19 10
+ 237*0
+ 337*2
1559*6
16 3*1
58 35*9
5848*6
4
MoonlLL.
Moonll.u.
63 Sagittarii -
65 Sagittarii-
i8*8
6
6
192145*11
195146-87
i9 55 25*34
19 58 55*9*
+ *02
+ •03
151*15
149*08
70*61
70*14
S. 18 714*8
1632 17*4
13 58
13
+ 431*2
+ 516*8
16 6*o
x6 8*4
58 59*3
59 7*9
5
Moon II. l.
MoonlLu.
p Aquarii -
i9Aqnarii -
19*9
4i
5i
2021 21*86
205028*13
21 312*86
211855*39
+ •03
+ •03
146*73
144*32
69*59
69*03
8. 14 41 ii*3
12 36 5*3
1151
10 15
+ 59**4
+ 656*7
l6 10*2
16 ix*5
59 H*5
59 *9*3
6
Moonll.L.
Moonll.u.
$ Aquarii -
k Aquarii -
20*9
4i
5
21 19 6*o8
2147 18*25
22 10 38*90
22 31 41*05
+ •03
+ •03
142*04
140*04
68*48
68 00
8. 10 19 18*4
75315*0
822
450
+ 709*1
+ 749*4
16 12*3
r6i2*5
5922*1
5923*1
7
Moon II.L.
Moonll.u.
7 Piaoium *
K Piscium *
21*9
4i|
22 15 8*74
2242 42*86
23 11 5*06
232055*14
+ •03
+ '03
i38*45
"37*33
67*61
67*34
8. 52021*4
8. 2 43 2*9
N. 238
X. 37
+ 777*5
+ 793*6
16x2*4
x6ix*8
5922*5
5920*5
Digitized by
Google
8o MOON-CULMINATING STARS, 1882.
AT TRANSIT AT GREENWICH.
Month
and
Name.
Apparent
Bight
-4 .
Var.of
in
1 hour
of
Long.
Bid.
Time
of
Semid.
iSerid.
Apparent
Declination.
Var.of
ODec
in
xhour
or
Long.
1
Jnne 8
MoohILl.
MoonlLu.
w Pisciom «
45Fiscium •
Moon U.L.
MoonlLu.
8 Piscinm *
t Piscium •
Moonllx.
MoonlLu.
o Piscinm •
54 Ceti - •
Moon II. l.
MoonlLu.
23-0
4
6
24*0
4ft
4
15-0
4
6
26-1
13
14
'5
16
18
19
MoodILl.
MoonlLu. 27*1
Moonll.L.
MoonlT.u.
Moonll.L.
MoonlLu.
Moon I. l.
Moon I. u.
Moon L l.
Moon I. u.
Moon I. l.
Moon L u.
MoonLL.
MoonLu.
Moon I. l.
k Canori «
w Leonis •
Moonl. u.
MoonLL.
w Leonis «
A Leonis «
MoonLu.
MoonLL.
34Sextantis*
p* Leonis
28-1
29*2
o-8
x*8
2-8
3*9
5
6
4*9
5
5
59
6
6
h m •
23 10 6*65
23 3726*50
235317-15
01938-74
448'7 6
03219-41
04235-36
05650-99
1 o 3-69
128 5-73
13911-35
14437-84 +
15628*15
225 u-88
25415-78
32336-57
3 53 8-92
42245-72
452 18*62
52138-85
54820-36
6 1651*74
64448-40
712 6*12
73842-66
8 4 37-70
82952*61
8 54 30*28
91834-71
9 z 22*80
922 9-79
94210-73
10 523*88
9 54 0*29
10 140*13
1028 20*17
1051 5-91
103633-68
105736-19
s s
136-7367-18
136*6767-16
137-13
138*06
67-26
67-48
i39'3*j 6 7-79
140*99 68* 17
•03
•03
•00
•01
142 • 76
144-5*
146*09
147*30
147'99
148*02
147*33
145-91
143*90
141-24
138*14
134-78
131-31
127-8964
124-64
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119-11
68-58
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69-77
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613
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19 9 io*o +
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837
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- 362-0
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15 34
15 30
15*5*3
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5859-2
5850-9
5841*5
5830-8
5819-1
58 6-2
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57*1-4'
57 4-8,
5647-6
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55 5511
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639-0
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6,54 41*1
8.5430-8
i450'5'54**-6
1448-9*54 i6'7
1447*954 I3"i
1447*754 i»'i
Digitized by
Google
MOON-CULMINATING STARS, 1882. 381
AT TRANSIT AT GREENWICH.
Month
1
Apparent
U
Var. of
G'aBJL
Sid.
Time
Var. of
(['a Dec.
1
••
and
Name.
i
Right
*3
in
x hoar
of
Seroid.
Apparent
DeclinAtion.
in
1 hour
■1
£
Day.
1
Ascension.
$*
of
Long.
pats'
Mexid.
A/WU-UO MVU*
of
Long.
1
1
h m s
a
a
a
O t It
n
1 *
/ n
Jane 21
Moon I. it.
7-0
11 1347*66
113-50
61*07
8. 26 30*0
- 66l-6
1448*1
5413-7
Moon 1. 1*.
-
11 3632-15
114*01
61*23
2 3836*2
- 658*6
'4 49*3
5418-1
v Leonia
4*
11 3056*52
— •01
10
B.A.G. 4006
6
n 45 2*99
— •01
441
•3
Moon I. u.
8-o
1159*6-15
115*09
61*53
8* 449 35*7
- 650*4
145*-*
5425*2
Moon I. L.
-
12 22 36*48
116*73
61-98
65823*6
- 636-6
1453-9
54 35-0
B.A.C. 4201
6
122155*41
— •01
8 1
X Virginia -
5
123311*98
— •01
721
24
Moon I. u.
9-0
1246 9*92
118-93
62-58
8. 9 3 50-7
- 616*8
1457*3
5447*4
Moon L l.
-
131012*97
121*67
63*30
II 441-3
- 590-4
15 x*4
55 *-4
49 Virginia -
6
13 14578
— •01
IO 7
a Virginia -
1
13 19 1-49
— •01
1033
25
Moon I. u.
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133451*86
12490
64-15
8. 125932*0
- 556-8
15 6*1
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-
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128*56
65 09
144651-3
- 5-5*0
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55 39 - 3
86 Virginia -
6
13 39 4*' U
— •01
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k Virginia -
4*
14 639*33
— •01
943
26
Moon I. u.
ii*i
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132-56
66*10
8.162457-3
- 464-4
15 17*3
56 o'7
Moon I. L.
-
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136-78
67*15
1752 0*1
- 404-4
i5»3'6
56*3-7
a labia - -
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144424*60
•00
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**
15 017*48
•00
16 2
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MoonLu.
12*1
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141-04
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8. 19 6 3-0
- 334 - 4
1530-2
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-
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»45*i7
69*19
20 5 6*8
- 254*6
15 36*9
5712-7!
8 Scorpii -
*i
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•00
22 17
l Scorpii -
2
15 5« 38-54
•00
1929
28
Moon J. it.
I3'I
16 19 4*00
148*93
70-08
8.204715*2
- 165*3
15 43-8
5737-7,
Moon L l.
-
1649 10*92
152*11
70-83
21 1042*3
- 67*9
I5 50-5
58 2-3
w Opbinchi -
5
1625 12*69
+ •01
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£ Opbinchi -
5
17 14 0*20
+ •01
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Moon L u.
14-2
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154*51
71*38
8.21 14 1*4
+ 35-6
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Moon I. l.
•
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155-99
71-72
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+ 142-8
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15-2
5
4
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+ •01
+ •01
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71-83
8.201653-7
2253
2155
+ 250*3
16 8*5
59 8*4
i
July 1
Moon U.L.
-
185551^5
156-03
71*72
8* 191616*7
+ 355-x
1613*4
5926*1
Moon ILu.
16*3
192656*73
154-76
7 1# 43
175516*4
+ 453*7
1617*4
5940*8
«* Sagittarii -
5
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+ -02
1624
g Sagittarii-
5i
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+ •02
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2
Moon II.L.
-
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152-85
70*98
3.161523*4
+. 543-4
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59 5**3
Moon ILu.
'7-3
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150*53
70*44
141839-3
+ 621-9
l6 22*7
60 0*4
i4Caprieorni
5
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+ *02
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BJLC. 7221
6*
»o 44 I5'57
+ •01
B.«59
Digitized by
Google
382 MOON-CXJLMINATING STARS, 1882.
AT -TOAWRTT AT ftRJEENWIfJH.
Month
and
Day.
Borne.
i
Apparent
Bight
Ascension.
o«
Vir.of
(T/sBJL
in
1 hour
of
Look.
Sid.
Time
of
Semid.
JMOS*
Merid.
Apparent
Declination.
Var.of
C'sDec.
in
1 hour
of
Long.
s
1
1
July 3
MoonlLL.
MoonlLir.
£ Aquarii -
c 1 Capricorni
-
z8*3
4i
4i
h m 8
*o 57 54-97
21 27l6*5I
21 31 3Z*63
21 3846*05
■
+ •03
+ *02
8
Z48-04
145*57
69*86
69*27
1 n
S. rz 729*2
944 33*3
823
9 37
H
+ 687*5
+ 739*4
/ *
1624*0
1624*3
60 5-ij
60 6-3|
1
\
1
4
Moonll.L.
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k Aquarii -
o> Aquarii -
19-3
5
4i
2156 9*53
■3 24 37*34
22 3r 41-88
23 8z5*70
+ •03
+ '03
l43-3»
141*39
68*74
68*29
8. 71238*8
4 34 35*3
450
641
+ 777*3
+ 801 *o
16 23*8
1622*4
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59 59*4,
5
Moonll.L.
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i5Piflcium -
Z9Pi8cium -
20*4
n
6
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232036*72
232929*67
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+ '03
+ *04
139 **9
z 3 8*88
67-94
67*70
0. 153 9'*
•f. 04859-2
040
250
+ 8iz*i
+ 808*2
1620*4
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5951*8,
59420
6
MoonlLL.
MoonlLu.
51 Piscium •
8 Piscium *
21-4
6
4i
234819-79
01559*70
02621*17
04136*21
+ '03
+ •03
138-3*
I38-35
67-59
67*59
*• 3*9*7*3
6 520*4
618
657
+ 792*8
+ 765-8
16 14*5
16 zo-8
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7
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22*5
6
4
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z 1131*81
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z 39 I2*Z6
+ '03
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67*70
67-90
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11 32
8 34
+ 727*8
+ 679*5
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16 2*7
59 **5
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8
Moonll.L.
MoonlLu.
27 Arietis -
tr Arietis -
23*5
6
6
13932-80
2 7 47*62
2 2424*04
245 o' 82
+ '04
+ •03
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141-85
68 16
68*45
ff.13 6 1*4
15 3 49*0
17 11
1436
+ 611-6
+ 554*9
15 58-4
15 53*9
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9
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Moonll.u.
t 1 Arieias -
Z3 Tauri - -
24*6
5
5i
2 36 Z7*26
3 5 i*oo
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3 35 3»*73
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+ •03
143-08
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-7.164728*4
i8i5 3r*8
2043
1919
+ 480-4
+ 399*1
15 49"4
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10
Moonll.L.
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25 '6
3 33 56-24
4 258*70
144-97
I45-36
69*16
69*22
-7.192646*1
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+ 311*5
-I- 222*0
1540*3
»5 35*8
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57 8-5
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Moonll.u.
26*6
432 a*68
5 1 i*4*
145'ai.
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69*16
68*94
N.20 55 25'3
21 12 0*5
+ «9'4
+ 36*6
I5 3I-3
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56 36* z
12
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27*7
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5 5814*26
•
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68*09
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13
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28*7
626 14*96
653 4V57
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136*06
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66*75
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- 300*9
1514*3
1510*3
55 49*8
55 35*a
14
Moonll.L.
-
72039-41
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- 370*1
15 6*5
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Moon L i*.
0*2
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8 zo 29*42
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15214**8
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55 7*8
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MoonLi*.
>*3
83535*47
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- 530-6
- 568-5
1456*3
14 53*5
5443-8
54 33-4
Digitized by
Got
o
MOON-CULMINATING STARS, 1882. 383
AT TRANSIT AT GREENWICH.
onth
Name.
s
•
1
i
Day.
1
1
1
i
h m 1
8
s
s
# »
H
1 *
t *
ilyi7
MoonLu.
23
924 8*72
xr8-93
62-28
Ni 953 6-o
- 599-2
1451-0
54*4*3
Moon I. l.
-
94743*34
116*91
61-76
75046-5
— 623*0
I4 48-9
54x6-8
18
MoonLu.
3*3
zo 1056*16
115*30
61 36
N. 54420*8
- 640*3
14 47*3
5410-9
Moon I. l.
-
103352-46
iX4*x6
61*07
3 35 3"6
- 651*6
1446*2
54 6-9
19
Moon L u.
4*3
105637-87
1x3*49
60*92
K. 124 5-5
- 657*2
14 45-7
54 4'9
MoonLu
-
zi 19 18*31
113-33
60*91
B. 04726*3
- 657-3
1445*7
54 5'i
£ Leonis -
4i
111041*57
— *OI
3 ©
v Leonis -
4*
ix 3056*28
— -oi
10
20
MoonLu.
5'4
xi 41 59-90
113-69
61*04
ft. 25827-3
— 652-0
14 46-4
54 7-6
Moon I. l.
- '
12 448-85
114*56
61*31
5 753*
- 641*4
1447-8
5412-6
14 Virginis -
H
12 13 x8*X7
— -oi
8x6
B.A.C.4201
6
12 21 55*13
— -OI
8 1
21
Moon L u.
6-4
12 2751*50
»5'97
61-73
6. 7H39-5
- 625-4
1449*8
5420*0
MoonLi*
-
1251 14*17
1x7*90
62*27
91739-0
— 603*6
1452-6
5430-1
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5
12 33 ii*68
— •ox
7 21
»f Virginis -
5
12 48 15*40
— -ox
854
22
Moon L u.
7'4
13 15 3-00
120-33
62* 95
8. ix 1540*4
- 575*6
1456*1
544**9
Moon I. l.
-
133923-97
123-25
63*74
13 727*1
- 541
15 03
54 58-3
a Virginis -
1
13 19 x-X9
— *02
1033
86 Virginis -
6
133941-84
-'OX
11 50
..
*3
Moon L u.
8'5
14 422*66
126*60
64*63
8.I4 5I35-4
- 499*1
15 5*1
55 16-2
Moon I. l.
-
1430 3*85
130*32
65*60
162634*3
- 449*3
1510*7
55 36-7
\ Virginis -
4i
X4X2 46*57
— *02
12 50
a Libra
*i
1444*4-34
— •01
15 33
H
Moon L u.
9'5
145631*42
I34-3I
66*62
8.175045*5
- 391-0
15 16*9
55 59*4
Moon I. l.
-
152347-84
138*44
67*65
19 223*4
- 323*7
1523*7
5624-1
t 1 libra
4i
15 5 33**6
— *0X
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4
152139*72
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MoonLu.
10*5
155153*87
14*'55
68*65
B. 195939-0
- H7-3
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-
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146-44
69*60
20 40 42 * 9
— 161*9
I5 38-5
5718-3
jB'Soorpii -
2
155838*36
— •01
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4
16 5x2-10
— •01
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26
MoonLu.
ii*6
165026*92
149-94
70*42
8.21 351-3
- 68*2
1546-3
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-
172044*21
152-83
71*09
21 733*8
+ 32*2
i5 54'i
58i5-5
£ Ophiuchi-
5
17 14 0-17
•00
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58 0phinoni-
5
X7 36 25-84
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MoonLu.
I2'6
X751 31-86
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7i # 57
B. 20 5040*2
+ 137H
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MoonLu
-
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156*26
71-84
20 12 29*3
+ *44'6
16 9*2
5910-9
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4
18 646-66
— *ox
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5
18 1823*56
•00
2036
28
MoonLu.
'3'7
185358-66
156-68
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B. 19 "55*3
+ 35o-7
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Moon I. l.
1925 17*21
156-29
71*79
175230-5
+ 45*'4
1622-3
59 58-8
* Saffittarii-
3
19 249*20
•00
21 13
Digitized by
Google
384 MOON-CULMINATING STARS, 1882.
AT TRANSIT AT GREENWICH,
Month
i
Apparent
Var.of
(TsBtA..
in
8id.
Time
of
Apparent
Var.of
C'sDec
in
1
S3
and
Name.
*P
Bight
1 hour
Semid.
Declination.
I
hour
3
P4
Day.
a
Ascension.
J*
of
Long.
pass*
Merid.
or
Long.
•a
O
«
h m s
8
s
s
/ ft
it 1 / ir
1 *
July 29
Moon I. u.
'4*7
195626*66
155*20
71*52
8. 16 12 26*9
+
546*6 1627*5
60 l8*I
Moon L l.
-
2027 19*89
153*61
71-13
I4H33-5
+
630*3
1631*8
6033*6
fi Capricorni
3
20 1427*07
+ •01
15 9
i4Capricorni
5
jo 32 44*63
+ •01
1522
30
MoonHu. IS '7
21 013*30
151*63
70-67
8. 12 1 9*9
+
701*31634*9
6044-9
17 Aquarii - 6
21 1640*68
+ *02
9 49
c 1 Capricorni
4i
21 3846*58
+ *02
9 37
3 1
MoouILl.
•
21 3020-74
149*62
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8. 9 34 59-8
+
757«8'i6 36-7
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MoonlLu.
16*8
22 4*33
147*68
69-72
659 3-2
+
798*91637-2
6053*5
44 Aquarii -
5i
22 ix 0-74
+ *02
5 59
51 Aquarii -
6
2218 1*84
+ *02
526
Aug. 1
MoonELL.
-
22 29 25*79
H5 '95
69-32
8. 4 1628-3
+
824*2 1636*5
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144*53
68*99
8. 13025*3
+
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23 11 6*6o
+ •02
IX. 239
B.A.C. 8152
H
231731*92
+ •02
8. 02X
2
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-
23 27 16*00
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68*76
N. 1 16 1-0
+
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60 32 a 8
Moon II.U.
18-8
23 55 53-54
142*84
68*62
35953-0
+
808 '2
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60 18-4
d Piscium *
5i
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+ •02
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8 Piscium •
4i
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+ *02
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+
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19-9
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142*65
68*62
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+
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c Piscium *
4
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+ •03
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f 1 Piscium •
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1 737*26
+ •03
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-
1 21 30*24
142*99
68*73
K.1129 39'3
+
673-8
16 11*7
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20*9
1 50 9*16
143*51
68*87
13 38 o-6
+
608 * 3
16 5*5
58 57*3
19 Arietis -
6
2 640*20
+ •03
H43
v Arietis -
5i
24245*52
+ *0 3
1658
5
Moonll.L.
-
2 1854*81
144-10,69*03
N.i5 3*»5"4
+
534*6
1559*2
58 34**
Moon II.u. 22*0
24747*26
144-62169*16
17 11 24*1
+
454'*
1552*8
5810*8
c Arietis -[ 4i
2 52 31*12
+ •04
1
2052
8 Arietis -j 4J
3 456*00
+ •03
i
|
19 17
6
MoonlLxJ -
3 1645*08
H4-97, 6 9'*5
N.18 3345*1
+
368*6
1546*5
57 47*8
Moon II.u. 23*0
3 45 45*38
145*0269-25
I9 38 35-3
+
279-31540*4
57a5-4
A Tauri - -| 4§
35746*03
+ '04
1
21 46
w 1 Tauri - -
6
4 220*34
+ •03
1
I
19 18
7
Moonll.L.
.
41444*02
144-6869-15
N.2025 20*2
+
188*01534*5
57 3*6
Moon II.u. 24*0
443 35*93
143-89
68*93
205345*9
+
96*41528-8
564»-9
1 Tauri - J
5
456 5*20
+ •03
21 25
/ Tauri - -
Si
5 052*06
+ •03
20 16
8
Moonll.L.
.
51215*49
142 -62,68 -59
N.21 3 57'8,+
6*01523*5
5623*4
Moon II.u.
25-1
54037*04
140*89
68*13
205620*4' —
81*615 18*5
56 5'0
X 1 Ononis -
4i
5 47 25*9*
+ •03
20 15
X 4 Orionis -
5
55657*01
+ •03
R.20 8
Digitized by
Google
MOON-CULMINATING STARS, 1882. 38;
AT TRANSIT AT GREENWICH.
Month
and
Day.
Name.
•1
1
i
I
i
Aug. 9
Moonll.L.
Moonll.u.
26*1
h m s
6 835-26
636 5-67
8
S
I38-75
136*27
67*56
66*89
/ it
N.2031 35*2
195038-9
*
— 165*1
- *43*3
; ir
15138
15 9*4
1 »
55 47*8
55 3**9
10
Moon ILl.
Moonll.u.
27*1
7 3 4-W
72930*67
I33*56
130*73
66*17
65-41
N.185440H
174457'*
- 315-4
- 380*7
15 5*4
15 1*7
55 17*1
55 3*6
11
Moon ILl.
Moonll.u.
28-2
75522*23
82039*90
I27*87
125*10
64-64
63*89
N.16 2253*0
H49 54*7
- 438-8
- 489'7
H58-.3
H55*3
5451*3
54 40-2
12
Moonll.L.
Moonll.u.
29*2
8 45»5'*o
9 940*58
122-49
120*12
63-18
62-54
N.13 730*0
11 17 5*8
- 533*
- 569*6
1452-6
1450-2
54 30-3
542i*6
'3
Moon Li*.
-
9 3i*5'34
Il8*I4
61-97
N. 920 6-8
- 599*1
1448-2
5414*1
H
Moonl.u.
Moon I. L.
o*6
95452*22
10 18 0*48
Il6*40
115*04
61*51
61*15
N. 7l755'i
51149-2
- 621*8
- 638*1
1446-5
1445*2
54 7*9
54 3*°
IS
Moon I. u.
Moon I. l.
i # 7
104054*88
11 340-37
II4-09
II3-56
60*90
60-78
N. 3 3 4*7
N. 05254-O
- 648*3
- 652-5
14 44*3
1443*7
53 59*7
5357*8
16
Moonl.u.
Moon Life
**7
11 2622*17
n 49 5-65
II3H8
II3-84
60*78
60-92
8. 117 3**4
327 6*8
— 651*0
- 643-8
1443*7
i444'i
53 57*6
5359**
«7
Moon I. u.
Moon I. l.
n
12 II 56*22
12 34 59*32
114-66
115*93
61*17
61*55
s. 53440-9
739 7*1
— 631*0
— 612*4
1445*1
1446-6
54 **6
54 8*i
18
Moon L u.
Moon I. l.
a Yirginis -
B.A.C. 4531
4-8
1
6
125820*34
1322 4*60
13 19 0*87
1328 26*61
— •01
— •01
117-65
119*80
62*06
62-67
8. 93916*2
"33 57*3
1033
1237
- 588-1
- 557*7
1448-6
1451*3
54 15*7
5425*6
*9
Moonl.u.
Moon I. l.
B.A.C.4700
A, Yirginis -
5*8
6
4i
1346 17*11
14 11 2*52
14 426*39
14 1246*21
— •01
— •01
122-35
12527
63-39
64-19
8.132155*7
15 153*0
15 45
12 50
- 520-9
- 477*5
1454-6
1458-6
54 37*7
545**3
to
Moon I. u.
Moon I. l.
a Libra
t. 1 Libra
6*8
*i
4i
143624*90
15 227*51
I444 23-95
15 5 3*'88
— •01
— •02
128*50
131-96
65-06
65-98
S. 16 32 26* 1
175* 7*5
15 33
19 21
- 426*8
- 368-8
15 3*3
15 8-6
55 9'3
5528*8
ai
Moonl.u.
Moon I. l.
k Libras
9 Libra
7*9
5
4i
152912*53
15 5640-82
15 35 12-24
1547 9-86
— •02
-*03
135-55
139*15
66*91
67*82
8.185926*0
195247-8
19 18
1623
— 303*0
- 229*4
15 H*5
1521-1
55 50-5
56i4*5
22
Moon I. u.
Moon I. l.
B.A.C. 5580
B.A.C. 5663
8*9
6
162451*66
165342*64
1635 0*96
164630-73
— •02
— -02
142*61
145*82
68-69
69-46
S.20 3040*2
205134*7
1942
20 13
— 148-1
- 59*8
1528*2
15 35*7
5640*6
57 ^'3
*3
Moon I. u.
Moon I. l.
58 Ophiachi •
u Saffittarii -
9*9
5
4
17*3 9*57
1753 6-69
17 3 6 *5*55
18 646-42
— •02
— •01
148*59
15083
70-13
70*64
3.2054 12*3
20 37 28*7
2137
S.21 5
Digit
+ 34*5
+ 133*4
zed by Vji 1
15 43*7
1551*9
doqI
57 37*4
58 7*4
e
386 MOON-CULMINATING STARS, 1882.
AT TRANSIT AT GREENWICH.
i
i*
Tar. of
Sid.
! Var.of
1
J
Month
and
Name.
Apparent
Bight
5*.
fl's R.A.
in
x hour
Time
of
Semid.
Apparent
Declination.
a
1
'a Dec.
in
hour
i
Day.
1
Ascension,
1*
of
Long.
pass*
Merid.
01
Long.
I
1
h m 1
1
1
B
9 *
H
/ it
/ n
Aug. 24
Moon I. u.
11*0
182327-03
15**45
7I*OI
S.20 040-8
+
*34*9
16 0*1
58 376
Moon I. l.
-
1854 *"94
153*4*
71*21
19 331*6
+
33^*5
16 83
59 7*6'
B.A.C. 6336
H
183054-75
— *0I
21 30
t 3 Sagittarii-
4
185045*60
— *0I
21 16
*5
MoonLu.
I2'0
192446*69
•53'77
71-25
8.174615-5
+
435*6
1616-1
5936-2
Moon I. l.
-
195531-18
153-56
71-17
16 939*7
+
5*9*3
1623-4
60 3-0
c 3 Sagittarii -
5
193550*29
— •01
16 24
& Capricorni
3
20 1427*10
— •01
15 9
96
Moon I. u.
13-0
2026 10*52
152*93
70-99
8.14x5 4*9
+
614*9
16 30*0
6027*2
Moon I. l.
-
205640*39
152*01
70-74
12 424*9
+
689*8
1635*6
6047-6;
14 Capricorni
5
203244*70
•00
1522
1
r Aqnarii -
4i
21 3 14*20
•00
1151
j
»7
Moon I. u.
14-1
21 2658*25
15095
70-47
8. 940 2*1
+
75i*7
1640*1
61 4-oj
Moon L l.
-
2157 3*30
149*90
70-20
7 44***5
+
799*0
1643*2
61 15*6
c 1 Capricorni
4i
21 3846*81
•00
9 37
30 Aqnarii -
5i
21 57 8*30
•00
7 6
28
Moonll.u.
y Aquarii -
k Piscium -
15-1
4
4i
22 29 16*24
23 II 7'03
23 2057'13
+ •01
+ •01
148*93
69-97
8. 42X 30*6
N. 239
N. 037
+
830*3
1644-9
6l 21*7
29
Moon II. l.
-
225858-83
148*21
69-79
8. 13342*2
+
845*0
1645-1
6l 22*5
Moonll.u.
16*2
232834*33
147*75
69*69
N. I 15 22-1
+
842*9
16439
61 x8*o'
A. Piscium -
5
2336 5*63
+ •01
i 8
B.A.C. 8276
H
234250*67
+ *0I
134
30
Moon II. l.
•
2358 5*89
147-56
69-66
N. 4 2 23*2
+
824*6
1641*2
61 8-3
MoonlLu.
17-2
27 36*68
147-61
69*69
644 9-6
+
790-7
1637-3
6053-8'
8 Piscium *
4i
42 37*62
+ •01
6 57
c Piscium *
4
05653*28
+ *02
7 16
3i
Moon II.L.
-
O57 9*40
i47*87
69-78
N. 9 1742*2
+
74* *5
16 32*2
6035-2
Moonll.u.
182
x 2645*92
148-23
69*90
II 40 19*2
+
681-7
1626*2
60 13- x I
v Piscium *
6
I 3054*58
+ *02
ix 32
1
Piscium •
4
I39I3-70
+ •03
834
1
Sept 1
Moon II.L.
•
I 5626*92
148*60
70*02
N.13 49 38'7
+
609*9
16 19*4
59 48'3.
Moon II.u.
19-3
2 26 11*90
148*87
70*11
154341*8
+
5*9*3
l6 12*1
59 21*6
v Arietis -
Si
24246*34
+ •03
1658
8 Arietis -
3
3 456*82
+ •03
19 17
t
MoonlLi*
•
2555888
148*92
70-15
N.i7 20 54*3
+
441-8
16 4-5
5853*7
Moonll.u.
20*3
32544*58
148*63
70*11
1840 7*2
+
349*7
I5 56-8
5825-3
13 Tauri - -
s§
3 35 34*43
+ •03
19 19
A Tauri - -
4i
35746*88
+ •04
2145
3
Moon II.L.
.
3 55*4*53
147*95
69-95
N.194037'8
+
255*1
i5 49*o
57 57*°
Moon II.u.
21*3
42453*56
146*81
69*68
2022 8*0
+
160 *o
i5 4i*5
57*9*4
t Tauri - -
4i
43513*40
+ •04
2244
t Tauri - -
5
456 6*04
+ "03
N.2X 25
-
MOON-CULMINATING STARS, 1882. 38
AT TRANSIT AT GREENWICH.
Sept. 4
MoonlLL.
MoonlLu.
C Tauri-
X 1 Ononis
Moon ILL.
MoonlLu,
y Geminor.-
(* Geminor. -
MoonlLL.
MoonlLu.
68 Geminor. -
g Geminor. -
MoonlLL.
MoonlLu.
27 Cancri *
B.A.C. 2872*
MoonlLL.
MoonlLu.
MoonlLL.
MoonlLu.
Moon II.l.
MoonlLu.
MoonlLL.
MoonlLu.
Moon I. l.
Moon I. u.
MoonLL.
Moon L u.
Moon I. l.
Moon L u.
MoonLu
MoonLu.
Moon I. l.
Moonl. u.
Moon L l.
f 1 Librae -
$ l Scorpii -
Moon I. u.
Moon L l.
*f Ophinchi -
24 Scorpii -
22*4
3i
4*
23'i
*i
4
*4'5
5*
Si
*55
6
6
26-5
27*6
28*6
29*6
3-0
4*i
5'i
4
2
h m 8
4 54 6-02
52256-38
53038-87
54726*74
55119-67
6 19 ii*8o
63056-47
657 9-37
64629-84
71312-13
72654-85
73919-90
73918-23
8 448-94
820 14*67
827 14*86
8 2946*07
85412*29
9 18 10*99
941 46*02
xo 5 1*73
1028 2*65
105053*51
11 13 39*20
1x3423*04
115712*71
12 20 11*56
124324*39
13 655*68
133049*71
1355 10*32
1420 0*94
1445 *4*4
15 IX 22*10
153755-39
15 21 38*91
15 58 37-55
16 5 3*90
16 3246*18
161714-94
163447-98
•02
•02
H5
*43
1969*29
1368*77
140*6968*15
137*9667*44
N,
135
132
129'
126*
"3*
X20*
Il8'
117-
115*
"4"
n 3 «
113'
ix 3 «
114-
115-
n6«
118'
120'
122'
125-
128-
131*
134'
"37*
139-
66*67
65 -86
65*06
64*27
63*52
62*83
62*22
61*70
61*29
60*99
60*79
60*72
•5o*77
60*93
61*22
6i*6i
62*10
62*68
63-35
64*08
3664-85
65*65
66*43
67*20
67*91
o /
[.204443*3
204850*6
21 4
20 15
.2035 14*1
*o 453'4
1630
2045
r.19 1858*5
18 1846*8
16 5
1848
.17 5 40'
15 41 1
'3 3
1340
.14 6 16
122245
.103x50*7
83449*6
63258-3
42730-8
2 19 39*6
o 1036*2
15828-9
4 -5*5*5
612 2-2
■ 814 7-5
10 11 27*9
.12 248*4
134652*0
, 15 22 19*6
164750*4
s. 18
2 2*7
3 34*3
19
16 18
1929
.1951 5*6
2023 21
1946
.17 31
66*3
24*4
iio*8
191*7
266-4
334'4
395 • 5
449-6
496*8
537**
570*9
598-2
619*3
-534*3
643
646-3
- 643*6
- *534'9
- 620-
599-6
572-8
539-6
499*9
453'-5
400*4
340*5
273-7
200*5
121*1
15 34*3
15*7*4
15 21*0
1515*1
9*7
4*8
15 o*5
1456*7
H53'
H SO'
1448*
1446*
14 44'
14 43'
14 43*
1443'
H43'
H43'
14 44'
H 45*
H47'
H 49'
1452
H55'
»4 59'
15 3
15 8'
57 **9
5-5 37*7
56 14*2
55 5**5
55 3**7
55 H*9
54 59' 1
5445'*
4 54 33*1
65422*8
5414*3
54 7*5
54 *'*
53 58*3
53 55*9
53 55*0
53 55*4
53 57*3
54 0*7
»54 5-5
65411*9
85419-9
454*9-5
I5i3*3
1519*1
5441*0
54 54*4
55 9*-5
5526-8
5546*0
56 7-2
Digitized by
Google
88 MOON-CULMINATING STARS, 1882.
AT TRANSIT AT GREENWICH. J
Month
and
Name.
1
1
Apparent
Right
Tar. of
d'sRJL
in
1 hour
8id.
Time
of
Semid.
Apparent
Declination.
Yar.of
(['■Deo.
in
1 hour
g
t '
Day.
Ascension.
I s
of
Long.
Merid.
of
Long.
1
&\
h m a
a
a
s
/ »
*
9 9
1 »
Jept. 19
Moon I. u.
7-2
17 059-52
142-3168*54
9.10 39 11*2
- 36*4
1525*45630-3!
Moon I. l.
-
172940*20
144*4069*06
103737*6
+ 51*7
1531*1
5055-1.
| Ophincbi -
5
17 "3 59*37
— •01
IO59
58 Ophiuchi -
5
173685*08
— •01
1137
20
MoonLn.
8*2
i7 5843"5i
146*0869*48
8.20 1755*1
+ 144*8
15 39*3
57"'3
Moon I. 1*
-
1828 4*25
147-30
69-77
19 39 35*3
+ 138*6
15468
57487,
fi Sagittarii-
4
18 645*96
— *02
*i 5
siSagittarii-
5
18 1822*89
— *OI
2036
SI
Moonl. u.
9*3
185737*04
148*09
69*95
3.184130*0
+ 33**i
15 54*5
5816-9
MoonL l.
19 17 x6*86
148*48
70*01
1716536
+ 4*3*5
16 2*3
5845*5'
d Sagittarii-
5
19 1047*68
— •01
19 10
c* Sagittarii -
5
'9 35 49*95
— *OI
1614
%%
Moon I. u.
10*3
«95659*34
148-55
70*01
S. 15 53 14* 1
+ 510*6
16 10*0
5913*8
MoonL l.
-
201641*18
148-40
69*94
14 3 4*8
+ 591*4
1617*4
59 4* ••
$ Capricorni
3
so 1426*82
— *01
15 9
14 Capricomi
5
203144*46
— *0I
15 22
*3
Moon I. u.
113
105610*38
148-13
69*84
8.115723-9
+ ^yl
1624*4
60 6'6,
6029*7
Moon I. L.
11 2556*12
147-85
69*74
9 38X4X
+ 715-9
1630*7
9 Aquarii -
44
11 3 14* 01
— •01
1151
$ Aquarii -
4i
11 31 31*14
— *OI
823
1
14
MoonI.tr.
12-4
115519*14
147*68
69*67
S. 7 75i*i
+ 775*7
1636*16049-5
Moon I l.
1115 1*14
147-68
69*64
41851*8
+ 811*7
1640-4
01 i 3
44 Aquarii -
5i
1111 1*01
•00
5 59
1
at Aquarii -
5
113141*88
•00
4 50
1
*5
Moon I. u.
*3*4
"54 34* 38
147*91
69*68
s. 14410*1
+ 831*6
i643*5
6ri6'6
6lM*7'
Moon I. l.
23 2411*90
148*39
69*79
N. I 3 51
+ 837**
i645**
y Piflcium -
4
13 11 7*15
•00
138
m Piacium -
4J
131057*19
•00
37
26
Moon I. u.
d Piacium *
8 Piacium •
I4'4
Si
4i
*3 53 56*79
01435*91
04137*98
•00
+ '01
149*13
69*96
K. 3 49 37*3
731
6 57
+ 815*3
16 45 '4
61 13*4
1
*7
Moon II.L.
.
016 11*10
150*10
70-18
s. 631 6-3
+ 796*8
i644* x
Si i8'6
61 8*5
MoonII.tr.
15*5
05619*57
151*16
70*45
9 7*57
+ 751*1
[64**3
f l Piacium •
4i
1 7 38-34
+ •01
657
"
11 Piacium -
4
11514-71
+ •01
14 45
18
Moonll.L.
•
1 16 39*84
152-11
70-71
N.II 31 59-I
+ 692*7
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MoonlLu.
i6- 5
15711*17
153*4
70*96
1343 »7'3
+ 620*0
1631*8^
JVji »
19 Arietta -
6
1 641-51
+ *01
14 44
1
27 Arietis -
6
1 1416*30
+ •01
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J
29
Moon ILl.
•
11754*01
I53-78
71-14
N.*5 39 *4*5
+ 536*3
i6sS'5* ,tV5 '
Moonll.u.
17-6
25841*14
153*99
71*23
17 17 13*8
+ 444* *
i6i8'35
ffvr
8 Arietis -
4i
3 457*53
+ •0*
19 17
1
r l Arietis -
5
31419*47
+ "03
tf.10 43
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Google
MOON-CULMINATING STARS, 1882. 389
AT TRANSIT AT GREENWICH.
•
Month
and
Name.
6
"8
1
Ap)
R
Tar. of
(['■Dec
in
1 hour
I
•3
i
Day.
Asa
of
Long.
I
1
h m s
s
» 1 ■
/ it
*
* H
/ H
Sept 30
Moonll.L.
-
32927-74
153*67 7«" 19
^183629*8
+ 346*2
16 10*5
5915*7
MoonlLu.
18*6
4 6*78
152*7370*99
*9 35 4«*5
+ *45*5
16 2*4)5845*9
«* Tauri - -
5i
4 1025*18
+ •03
20 17
B.A.C. 1361
6
418 8*80
+ •03
1846
Oct. 1
Moonll.L.
-
43030-67
151*14
70*64
N.20 1442*0
+ 144*8
15 54*1
5815*5
Moon IL u.
19*6
5 «3i*73
148*9470*13
203345*1
+ 46*4
i5 45*8 57 45*3
it Tauri - -
6
5 "15*47
+ •03
21 58
ii4Tauri . -
6
5 2036*91
+ '03
2T 50
\
2
Moon II.L.
-
530 3*oi
146*20
69*49
N.20 33 31*9
- 47*7
15 37*8
5715*8
5
MoonlLu.
20*7
5 5*5*'75
143*0368*72
2015 4*7
- 135*8
1530-1
5647-6
rj Geminor.-
3i
d 7 49* 16
+ •04
22 32
fi Qeminor.-
3
61553*20
+ •03
"34
3
Moonll.L.
-
627 14*71
•39*59
67*87
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— 216*9
15 22*8
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Moon ILu.
21*7
65448*39
136*01
66*96
184849*6
- *9°*4
15 16-1
5556-4
X Geminor.-
34
7 11 22*12
+ •03
1645
,
B.A.C. 2432
H
7 16 17*06
+ •03
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1
4
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-
72139-04
132*44
66*04
N.1744 1*9
- 356**
15 10*0
55 34*i
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22-7
7 47 47*43
128*99
65*13
162651*4
- 414*3
15 4*5
55 H*o
3 Cancri -
6
7 54 4*64
+ •02
1738
B.A.C. 2731
H
8 319-87
+ '03
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5
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-
8 13 15*69
125*76
64*26
N.i4 5*49*4
- 464*9H59*7
54 56-3
\
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23-8
838 6-97
122*84
63*46
1321 23*2
- 508*41455*6
5441-2
a Cancri •
4
852 4*63
+ *02
12 19
at Cancri *
5
9 123-96
+ •03
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6
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-
9 225*30
120*28
62*74
N.H35 55-5
- 545*i
i4 5**i
54*8-4
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24-8
926 15*26
Il8*I2
62*12
94345*-
- 575*6
1449*3
5418*0
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3J
9 34 53*54
+ *02
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a Leonis •
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10 2 7*52
+ *02
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7
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-
94941-84
116-3861-61
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— 600*01447*1
5410*0
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25-8
10 12 50*22
115*0961*22
544 9-0
— 618*61445*4
54 4*o
p Leonis *
4
10 26 38*10
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5
1043 535
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8
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-
10 35 45*75
114*24
60*95
N. 339 31
- 631-5 1444*4
54. o-i
Moon II.u.
26*9
105833*80
113*8460*81
N. I3155*7
- 638*81443*95358*2
9
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•
11 21 19*66
113*8860*79
B. 036 6*3
- 640*6,1443*8^358*0
1
MoonlLu.
27-9
11 44 8*59
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60-89
« 43 54*9
- 636*61444 2:53 59*4
10
Moonll.L.
•
12 7 5*65
115*22
61*11
B. 4 50*0-7
- 626*71445*054 **4
Moon II.u.
28*9
12 30 15*69
116*51
6i'44
65412-3
- 610-81446*254 6*9
11
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.
125343*27
118*15
61*87
3. 85415-5
- 588*6,1447*854 "*6
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0*2
13 1527*80
120*03
62-40
1049 12*9
- 559*9i4 49*7 54i9*5
12
MoonLL.
-
133941*31
122*27
63-00
8.«37 44*9
- 5*4*3 1451*954*7*7
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Moon I. u.
i-3
14 4*3*17
1*4*74
6j-6 7
s. 14 18 29*0
- 481*8 14 54*454 37*o
Moon I. l.
142935-68
127*3764*38
S.1550 09- 43*'3'i457*35447*5
o
39 o MOON-CULMINATING STARS, 1882.
AT TRANSIT AT GREENWICH.
Month
and
Day.
Name.
i
Apparent
Bight
Ascension.
J*
Var.of
in
1 hour
of
Long.
Sid.
Time
of
Semid.
pass*
Mend.
Apparent
Declination.
Var.of
C'sDec
in
1 hour
of
Long.
i
I
*3
I
1
&
Oct. 14
Moon I. u.
Moon I. l.
a*3
h m 8
145520*27
15 21 37*28
S
8 8
130*0765-11
132*75165*83
■ / n
8.17 1056*5
181952-5
-
it
375*8
312*4
/ tr
15 0*5
15 4*0
1 w
54 59**
55i'i*9
15
Moon Lit.
Moon I. l.
3*3
154825-88
16 15 44*10
I35*3*J66*5*
137*6767*15
8.191529-3
195633*1
—
242-7
167*1
15 7*8
i5ii*9
55 25'9;
5541-oj
55 57*5'
5615-1
16
Moon I. u.
Moon I. l.
£ Ophiuchi-
b Ophiuchi-
4'4
5
5
164328*79
17 11 35*86
171358*91
17 19 "'77
— •01
— •02
13972
141* 39
67-70
68*15
S.20 21 59*2
203053*8
2059
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-
86*5
2*0
15 16*4
15 21*2
17
Moonl. u.
Moon I. l.
9 Sagittarii -
p Sagittarii -
5'4
4i
4
1740 0*52
18 837*56
175641*38
18 645*48
— -02
— *02
142*64
143-46
68*49
68*72
8.2022 37*7
195647-6
2422
« 5
+
+
8 5 - I
*73'4
I5 26*3
I5 31'8
56 33*9
56 53*9
18
Moonl.u.
Moon I. l.
& Sagittarii -
d Sagittarii -
6'5
4
5
183721*95
19 6 9*07
185044*67
19 1047*20
— *02
— *02
143-87
H3 '93
68*84
68-87
8.191317*3
18 12 19-1
21 16
19 10
+
+
261*5
347*8
1537*6
1543*6
5715-0
57 37*o
19
Moon I. u.
Moon I. l.
g Sagittarii -
a 9 Capricorni
7'5
54
34
19 34 55' 16
20 337*64
19 51 18*90
20 11 33*89
— •02
— *0I
143*72
143*35
68-82
68*73
8.165423-9
15 2020*0
1548
1254
+
+
430*8
509-0
1549*8
1556-1
57 59*7
5823*0,
20
Moon I. u.
Moon I. l.
e Aquarii -
fi Aquarii -
8'5
3*
44
20 32 15*25
21 048-03
2041 20*82
2046 20*81
— *02
— *0I
142*92
142*56
68*62
68*51
8. 13 31 12*6
11 2824*5
9 55
926
+
+
581*1
645-6
16 2*5
16 8*8
5846-3
59 9*3
SI
MoonLu.
Moon I. l.
c 1 Capricorni
$ Aquarii -
9*6
44
44
212917*39
215745-89
213846*38
22 1040*31
— *0I
— *0I
142*37
I4**43
68*44
68-44
8. 9 13 33*6
648 33*7
9 37
822
.+
+
701*3
746-9
16 14-8
1620*4
5931*4;
59 5*" 1
22
Moon I. u.
Moon I. l.
*r Aquarii -
Q Aquarii -
io*6
5
44
22 26 16*96
225454*80
22 31 42*65
23 8 16-81
— •01
— -oi
142-81
14356
68-50
68*66
8. 415 33*8
13658*4
4-50
8. 641
+
+
781*1
802-6
1625-5
16 29*9
60 10' 8
60 26-9
1
*3
Moon I. u.
Moon I. l.
A. Piscium -
22 Piscium -
ii*6
5
6
232343*80
235248-39
2336 5*74
23 45 59'7o
— •01
— *0I
144*68
146*15
68*90
69*24
N. i 434*3
3 46i3'9
1 8
2 16
+
+
810-5
803*6
1633-4
1635-9
60 39*7
60 48 * 7
|
*4
Moon I. u.
Moon I. l.
5 1 Piscium *
9 Piscium *
12*7
6
44
22 12-46
05159*01
026 22*91
042 38*08
— •01
•00
147*91
149*87
69*65
70'ii
N. 62459*9
85746*3
618
6 57
+
+
781*4
743*7
1637*2
1637-2
60535
60 534
1
i
1
*5
Moon I. u.
Moon I. l.
ir Piscium *
19 Arietis -
13*7
6
6
121 9*59
15*43*93
1 3055*29
2 641-85
•00
+ *0I
151*8970*58
I 53'8o'7i*03
N.II 21 26*7
1333 1*8
11 32
N.1444
+
+
690*5
623*0
1635*9
1633*4
60 48 * 9'
6039*5
Digitized by
.oo
o
MOON-CULMINATING STARS, 1882. 39
AT TRANSIT AT GREENWICH.
Month
and
Day.
Name.
3
a.
Var.of
O Dec
in
1 hoar
of
Long.
■ i
1
&
£
Oct*6
Moonll.u.
w Arietis -
c Arietis -
14-8
5i
4i
h m 1
226 2*41
24247-42
25233-09
s
+ •01
+ -02
s
155-46
s
71*42
/ n
N.15 2946-8
1658
2052
*
+ 54* # 5
/ n
1629-6
6025*6
*7
MoonlLi*.
Moon II.n.
i3Tanri - -
B.AC. 1242
15-8
5i
6
257 15*08
32836-84
3 35 35-74
354x960
+ •02
+ *0I
15*55
156*95
71*69
71*81
N.17 9197
182948*9
19 19
1952
+ 451*4
+ 35*-4
1624*7
i6i8*8
60 7*6
5946*1
28
Moonllx.
Moon ILu.
t Tauri - -
B.A.C. 1468
16*8
4i
6
3 59 58-77
431 10-71
4 35 14*95
43928-24
+ *02
+ *02
I56-55
155*29
71*74
71*47
N.192958'9
20 913*3
2244
18 31
+ 248*8
+ H3'7
l6 12*1
16 4*8
5921*6
58 54-8
•9
Moon II.L.
Moonll.u.
B.AC. 1801
X 1 Ononis -
17-9
6
4i
5 * a*37
53224-11
53614-56
5 47*8'4o
+ •02
+ *03
153-18
150*33
71*00
70- 35
N.20 27 34*8
2025 41*2
23 9
20 15
+ 40*4
- 58-4
1557*1
1549*2
5826*6
5757*6
30
Moonllx.
Moonll.u.
26 Geminor. -
33 Geminor. -
18-9
Si
6
6 2 7-82
631 7*43
63536-44
643 6-70
+ -03
+ *03
146-87
143*01
69-54
68-62
N.20 439*6
1925 58-6
1746
1620
— 150-6
- 2348
I5 4I-3
15 33*5
5728*7
57 o*2
3i
MoonUx.
Moonll.u.
/ Geminor. -
g Geminor. -
20*0
6
5i
65919-24
72641-84
73243-82
73921-52
+ •04
+ *03
138-94
134*84
67-63
66-6i
N.1831 19*8
172231*3
1757
1848
— 310*1
- 376*4
15 26*1
1519*1
56 33-c
56 7*4
Not. 1
MoodILl.
Moon ILu.
B.AC. 2872*
a Cancri *
21*0
6
4
7 53I5-85
819 3-70
827 16-34
852 5-40
+ '03
+ '03
130*87
127*16
65*60
64*65
N.l6 121*3
1429339
1340
12 19
- 433*8
- 482*7
1512*7
15 6*8
55 43'?
5522-4
2
Moon II.L.
Moonll.u.
* Leonis •
Leonis •
22*0
6
3J
844 9-* 6
9 836-99
9 22 11*51
9 34 54'*7
+ •03
+ -03
123*82
120*90
63*77
62*98
N.1248 46*9
11 030*6
9 34
10 25
- 5*3-8
- 557-8
15 i*7
1457*2
55 3*5
5447-1
3
Mocn II.L.
Moonll.u.
i6Sextantis«
B.AC. 35*9*
23-0
6
6
93232-64
956 2*00
10 3 6*84
101424-79
+ •02
+ •03
118*46
116-52
62*31
61*76
N. 9 6 7-4
7 653-4
645
7 *
- 585-1
— 606 * 3
1453*5
1450*5
54 33-5
54«*S
4
Moon II.L.
Moonll.u.
B.AC. 3726
p* Leonis
24-1
6
6
10 19 ii*i8
1042 6*39
1046 12-70
105736-93
+ •03
+ •02
115-10
114-19
6i-35
61-07
N. 5 3586
25828*8
139
038
— 621*9
- 632-2
1448-2
1446*7
54H-a
54 8-6
5
MoonlLL.
Moonll.u.
£ Virginia -
B. AC. 4043
25*1
3i
11 453*90
11 2739*81
"44 35*37
"53 339
+ '03
+ •02
113-81
11393
60*93
60-93
N. 051 27-8
B. 1 16 2-3
N. 226
N. I II
- 637-2
- 637-0
14 45-9
14 45-7
54 5'5
54 4*8
Digitized by VjOC
O
9 2
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IN-
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nil
\J\1
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U Oil
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AT TRANSIT AT GREENWICH.
Month
and
Name.
1
Apparent
Right
Var.of
VnVUL
in
1 hour
Sid.
Time
of
Semid.
Apparent
Declination.
Var.of
C'sDec.
in
1 hour
1
t
Day.
Ascension.
1*
of
Long.
pass'
Merid.
of
Long.
'S
h m a
a
a
a
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n
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MoonlLL.
-
115030*12
"4*54
61*06
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l6' I
12 1330*61
115*62
61*32
528 14*8
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54 10*0 1
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13 023-71
119*08
62*18
92912*3
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1450*6
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8
MoonlLL.
-
132426-03
121*37
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8. 11 2333*2
- 550*4
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54 3» # 6
MoonlLu.
28*2
134857-71
123*96
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13 854*6
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9
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.
14 14 1-85
126*76
64*15
8. 1447 19*8
- 469-4
1458*8
54 5**9
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29*2
143940*53
129*70
64*91
16 16 9*5
- 417*6
15 2*1
55 5*i,
10
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-
'5 3 43**8
132-52
65*66
8.I7 33 5**3
- 358*3
15 5*7
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153030-74
135-36
66*39
8. 183858*9
— 391*6
15 9*4
55 31*7
MoonLL.
-
155751-10
137*98
67*06
1930 4*
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1513*2
55 45*8
12
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162540-87
140-25
67*65
S.20 551-7
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-
165355-17
142*05
68*12
2035 17*3
- 54*8
1521-2
5615*2
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a-6
1722 28*00
143*33
68-47
8.302733*1
+ 3* '5
15*5*3
5630*2:
Moon I. l.
-
175112*79
144*04
68-67
20 12 10*5
+ 121*4
1529*5
56 45*5
58 Ophinchi -
5
173624-31
•00
2137
ft Sagittarii-
4
18 645*16
— *01
« 5
i
14
Moon I. u.
3*6
1820 a*79
144*20
68-74
8.1939 1*3
+ 210*0
15 33*7
57 ©*9
Moon I. l.
184851*74
143*88
68 '70
1848 19*4
+ 296*5
1538*0
57165
B.A.C. 6294
6
182434*07
•00
1829
1
£* Sagittarii-
4
185044-29
— •01
21 16
l
15
Moonl.u.
4*7
'9 1734*31
143-16
68-55
3.174038*9
+ 379*5
1542*2
57 3**i
Moonl.L.
-
1946 6*52
142*18
68-34
16 1652*6
+ 457*3
1546-5
57 47"9
<? Sagittarii-
5
19 35 49*05
— •01
1624
g Sagittarii-
5i
1951 18*48
— •01
1548
1
16
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5*7
20 1426*03
141*07
68*08
8. 1438 9*6
+ 528-7
1550*9
58 3*7
Moon I. l.
204231-13
'39*97
67*83
i*45 5**5
+ 59**8
i5 55*i
5819*4"
i4Caprieorni
5
203243*59
— •01
15 22
7 Aqnarii -
5
2050 34*62
— •03
10 9
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Moon I. u.
6-8
21 1025*79
139*01
67*60
S. 1041 35-1
+ 648-6
15 59*4
58 34*9
Moon I. l.
-
2138 9-47
138*32
67*43
827 i*i
+ 695-5
16 3*5
5850-0
£ Aqnarii -
3
21 25 24-07
— •01
6 5
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N. 134 45*4
+ 779*7
16 17-6
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4
23 11 6*74
— •02
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it Piscium - 4}
23 2056*89
— •01
N. 037
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Google
MOON-CULMINATING STARS, 1882. 393
AT TRANSIT AT GREENWICH.
Month
and
Day.
Name.
1
Apparent
Right
Ascension.
P
Var.of
C'bRJL
in
1 hour
of
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8id.
Time
of
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Merid.
Apparent
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Var.of
C'ftDec.
in
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of
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1
3
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Nov. 30
Moon I. u.
9*9
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141-14
68*07
N. 4 10 5*8
+ 771-6
1610*0
59 50*5
Moon I. l.
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025 20*34
143-06
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+ 750-5
16 11-8
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6
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+ 447-0
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44
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+ *5i*7
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4
4 13 10*05
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34
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5
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396 MOOX-CLXMKATKG STARS, 1882.
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94 MOON-CULMINATING STARS, 1882.
AT TRANSIT AT GREENWICH,
Month
and
Name.
1
Apparent
Right
*1
Var.of
d'sRJL
in
1 hour
Sid.
Time
of
Semid.
Apparent
Declination.
Var.of
ODec
in
1 hour
1
1
Day.
Aacenaion.
J*
of
Long.
Merid.
of
Long.
1
%
h m s
8
8
8
/ #
N
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Dec. 1
Moonll.L.
-
10 024*23
117-56
62*06
N. 64532*4
- 6l6*I
i4 55**
54 39*9
Moon II. c
21-3
102344-09
115-84
6l '60
44055*7
— 629*I
1452*2
5428*8
36Sextanti8-
6
1039 8* 18
+ '03
3 6
d Leonifl *
5
105431-46
+ '03
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2
Moon IL l.
-
104646*65
114*68
61-28
N. 234 16*7
- 636*6
1449 9
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Moonll.u.
22*3
11 938*58
114*07
6l*I0
02639*0
- 638*9
1448-45414-8
r Leonia
5
112155*47
+ *03
N. 330
v Leonis -
4*
113057-71
+ *03
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3
Moonll.L.
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11 3226*56
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- 636* 2
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11 55 17*20
114-51
6l'I9
34729*7
- 628*5
14476
5411*9
if Virginia -
34
12 1355-22
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+ -0 3
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Moon ILl.
-
12 18 16-94
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61*44
8. 552 0*1
- *5i5*7
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Moonll.u.
24-4
124131-97
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7 53*4*4
- 597*4
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5
1248 i6*io
+ -02
854
a Virginia -
1
13 19 1*57
+ '02
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5
Moonll.L.
-
13 5 8'i9
119-06
62*34
8. 9 50 35*4
- 573*4
1451*8
54*7*3
Moon II.u.
*5*4
13 29 11*04
121*49
62*95
11 42 20*5
- 543* x
H54*5
54 37**
86 Virginia -
6
133942-04
+ *0 3
11 50
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4i
14 638-98
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6
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13 53 45**9
124-28
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8.132721*4
- 505*9
14 57*7
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7
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144442-82
130-64
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8. 16 31 26-8
- 409*4
15 5*6
55 17*7
Moonll.u.
*7*5
15 11 10-51
133-98
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174727-1
- 349*3
15 io*o
55 33*9
8
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153817-90
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8.185039-3
- 281*4
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Moon II. u.
285
16 6 3-14
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— 206*0
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9
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163422-44
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8. 20 12 37*4
— 124*0
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5626*5
Moon ILu.
*9*5
17 310*28
144-99
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zo
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-
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69-15
8.2027 0*1
+ 54*5
15 33*9
57 «'7
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°*9
175923-74
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+ 147**
15 38*5
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182851*62
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+ 239-3
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57 34*4
12
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1*9
18 58 16*98
146-81
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8. 18 31 17*7
+ 328-6
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+ 560*3
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4-0
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11 2143*38
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+ 671*0
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4i
11 3 12*91
— •01
1151
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4i
11 31 31*18
— *0I
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Google
MOON-CULMINATING STARS, ! 8 82. 39
f
AT TRANSIT AT GREENWICH.
It Month
11 and
ll Day.
Name.
f
1
Apparent
Bight
Ascension.
3j? ^Var.of
*ri in
*S^ x hour
J£ Long.
Sid.
Time
of
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Apparent
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Var.of
(C'sDec.*
in
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k Piscium -
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23 1x48*24
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18
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Moon L l.
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8*i
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4
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1 238*56
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Moon I. l.
4 Arietis -
1 Arietis -
92
6
6
131 9-15
2 6-44
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x 5059-11
— *0I
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9 Arietis -
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10*2
6
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i3Tsnri - -
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n*3
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3293365
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/ Tanri - -
12-3
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43038*15
5 112*34
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+ •01
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+ 39*9
15 56-4
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Moon I. v.
Moon I. l.
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Tf Geminor. -
I3'3
4i
34
5 31 34' 3 6
6 134-17
5 47 29-51
6 751*22
+ -oi
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70*18
69*73
17.101614*0
10' 5 9'i
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22 32
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15 43-3
57 53'
57 36-
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[ MoonlLu
p Geminor. -
\ Geminor.-
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4
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N.16 6
Digitizec
— 320* %
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Si5*7-<
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>56 5 8*
55638-
396 MOON-CULMINATING STARS, 1882.
AT TRANSIT AT GREENWICH.
Month
and
Day.
Name.
Deo. 16
28
29
30
3i
*
Apparent
Right
Ascension.
Moon II.L. -
Moon II. u. 16*
6
4
A l Cancri
a Cancri
Moon II.L.
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« Leonis
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Moon II. l.
Moon II. u,
B. AC. 3529*
p Leonis •
Moon II.L.
Moonll.u.
p* Leonis
p* Leonis -
Moon II.L.
Moon II.u.
fi Virginia -
* Virginia -
Moon II.l.
Moon n.u.
X Virginis -
f Virginis
'7*5
6
3i
185
6
4
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6
5
20*6
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63
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7 57 3^-21
8 24 10*72
83647-34
852 7*06
850 o
91510
92213
9 34 55
9 39 4a
10 342
10 1426
102640
1027 17'
1050 32'
105738
" 747'
11 1333'
11 36 27 1
"44 37*
12 13 56'
11 59 20
12 22 19
|i*33i3
1248 16
+ •02
+ •03
Tar. of
(CbJBUL
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134*78
131*00
127-42
124*16
121
118
116
115
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66*32
65*37
64-47
63-65
62*91
62*30
61*81
61*45
114-
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61*23
61*16
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14 1728*6
13 6
12 18
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*§
452*8 15 22*2
504*31516*9
5466
580*2
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038
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55 65
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5413*5
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ECLIPSES, 1882.
39:
In the Tear 1882 there will be two Eclipses, both of the Sun.
T*—A Total Eclipse of ike SUN, May 16, 1882, visible as a Partial Eclipse
at Greenwich.
ELEMENTS.
h m •
Greenwich Mean Time of 6 in B-A. May 16, 1941 2*8
0'sand <[ *s Right Ascension - - - - 3 35 46*68
o 1 *
O Declination- -------- N. 19 38 49-6
©*s Declination - -------- N. 19 19 39*8
<[ 's Hourly Motion in RJL - - - - - 36 13*7
O's Hourly Motion in BJL - - - - - 2 28*8
<['b Hourly Motion in Declination - - - N. 457*8
Q's Hourly Motion in Declination - - - N. 33*8
<[ 's Equatorial Horizontal Parallax - - 58 15 • 7
0*s Equatorial Horizontal Parallax - - 8*9
<[ 9 b True Semidiameter ------ 15 54*1
0*s True Semidiameter ------ 15 50*6
Begins on the Earth generally, May 16, i6 h 52™ • 1, Mean Time at Greenwich,
in Longitude 14 35' E. of Greenwich, and Latitude 4 6' N.
Central Eclipse begins generally, May 16, 17* 53 m '6,
in Longitude 3 7' W. of Greenwich, and Latitude io° 39' N.
Central Eclipse at Noon, May 16, I9 h 4i m *o,
in Longitude 63 46' E. of Greenwich, and Latitude 38 48' N.
Central Eclipse ends generally, May 16, 2i h i8 m# 7,
in Longitude 13 8° 56' E. of Greenwich, and Latitude 25 30' N.
Ends on the Earth generally, May 16, 22 h 20 m *2,
in Longitude 1 2 o° 53' E. of Greenwich, and Latitude 19 1' N.
The limiting lines of this Eclipse, in the accompanying diagram, have been
laid down from the following calculated positions:—
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98
ECLIPSES, 1882.
line of Central Eclipse.
1
Longitude.
Latitude.
Longitude.
Latitude.
Longitude.
Latitude.
/
/
/
/
/
c /
3 7W.
10 39 N.
43 14 E.
32 12 N.
91 oE.
39 H N.
5 29 E.
ij 56
18 41
SO 5
35 1
99 10
107 48
37 34
16 9
I 7 3 I
65 56
37 *5
35 47
*3 43
22 25
39 10
117 6
33 2
30 25
«5 53
29 8N.
Z 4 * 3 t,
82 44 E.
40 1
120 29
138 56 E.
28 51
36 47 E.
40 oN.
25 30 N.
Northern line of simple contact.
Longitude,
Latitude.
Longitude.
Latitude.
Longitude.
Latitude.
/
/
1
/
f
t
35 5*W.
49 21 N.
4 37 E.
69 33 N.
119 35 E.
80 2N.
27 19
52 49
12 17
72 46
140 57
76 56
21 2
55 50
23 5
76 4
154 21
73 *9
70 16
66 37
61 58 N.
*5 35
58 42
62 9
40 28
64 27
79 »5
163 32
9 *4
81 11
172 22 E.
2 21 W.
66 3N.
92 23 E.
81 29 N.
177 12 W.
Southern line of simple contact.
Longitude.
Latitude.
Longitude.
Latitude.
Longitude.
Latitude.
/
/
/
1
/
1
8 35E.
19 36 S.
51 12 E.
, 5 |N.
20
90 20 E.
7 8N.
18 26
15 41
I 7 4 2
97 47
5 17
*3 35
13 16
63 38
105 10
3 1 .
30 30
10 4
69 46
I 5I
8 31
in 58
42 M.
37 3*
6 24
75 58
82 59 E.
117 21
1 14 S.
44 27E.
2 38 s.
8 17 N.
120 55 E.
4 4i S.
Eclipse begins at Sun-set
Longitude.
Latitude.
Longitude.
Latitude.
Longitude.
Latitude.
9
/
/
/
/
/
177 12 W.
61 58 N.
165 9 E.
42 54 N.
137 56 E.
I 59N.
176 39
6l 21
156 57
30 44
132 52
3 13 &
177 56 W.
59 58 vt
152 10
22 48
129 16
4 15
170 41 E.
55 *9**.
143 52 E.
9 34 N.
126 55 E.
4 41 S.
Eclipse ends at Sun-rise.
Longitude.
Latitude.
Longitude.
Latitude.
Longitude.
Latitude.
9
/
e t
/
1
/
35 5*W.
40 21 N.
48 36
27 9W.
28 29 N.
15 58
2 39 W.
12 59 S.
37 2
36 54
20 42
2 12 E.
17 13
46 58
l6 32
7 55N.
6 12
19 10
34 27W.
41 53 N.
8 37 W.
5 21 S.
8 35 E.
19 36 S.
Digitized by
ECLIPSES, 1882. 39!
At Greenwich, a Partial Eclipse is visible, Magnitude (Sun's diameters: 1) o • 186,
h
Begins - - - - May 16, 18 10-5!
Greatest Phase 16, 18 46 o >Mean Time at Greenwich.
Ends 16, 19 23 o J
a 1 * *r ^v x> 1 c I first contact, 158° towards the West")
Angle, from North Pole, of | laflt contftCt> ^ towards the E^t I for direct
a i j* Tr -x ' r /first contact, 11 8° towards the West f image.
Angle, from Vertex, of { ^ contact> lJ2 o towards the Ea8t J
At Cambridge, a Partial Eclipse is visible, Magnitude (Sun's diameters 1) o • 1 75.
h m
Begins - - - - May 16, 18 13*2 1
Greatest Phase 16, 18 47*7 >Mean Time at Cambridge.
Ends 16, 19 23" 7 J
a 1 e xr *v x> i« ^/ first contact, 159 towards the West")
Angle, from North Pole, of l^ ^^ £. ^^ ^ £ast I for d(rect
a««i^ a^™ v A *»*~ ^/ first contact, 119 towards the West f image.
Angle, from Vertex, of | ^ contftC £ ^v. towirdg the Easfc J
At Oxford, a Partial Eclipse is visible, Magnitude (Sun's diameter=i) o* 173.
h m
Begins -_- - - May 16, 18 7-2!
Greatest Phase 16, 18 41*2 VMean Time at Oxford.
Ends 16, 19 16-7 J
a i * w ildu rf first contact, 160 towards the West"
Angle, from North Pole, of I ^ contac £ ^o ^^ the East
A f * Tr . * f first contact 1 18 towards the West
Angle, from Vertex, of j ^ ^^ ^o toward8 the East
for rftrect
image.
At Liverpool, a Partial Eclipse is visible, Magnitude (Sun's diameter = 1) o • 139.
h m
Begins -^ - - May 16, 18 6*2!
Greatest Phase 16, 18 36*7 >Mean Time at Liverpool.
Ends 16, 19 8-4J
Angle, from North Pole, */** ^Jg \$ ££* £ Jf|
Angle, from Verte,, of { JJ j£* # Jj-J- £ J*
for iftrerf
image.
At Edinburgh, a Partial Eclipse is visible, Magnitude (Sun's diameter = 1) o # 105.
h m
Begins - - - - May 16, 18 13 '2!
Greatest Phase 16, 18 40*2 >Ve ;i Time at Edinburgh.
Ends 16, 19 8-i J
a ^ r vr xi. -d 1 /./first contact, 167 towards the West!
Angle, from North Pole, of < ^ ^^ ^ UmBrds the Eaat I for direci
A . r Tr , „ J first contact, 131 towards the West f image.
Angle, from Vertex, of | ^ ^^ ^ towardg the Eaat j
At Dublin, a Partial Eclipse is visible, Magnitude (Sun's diameter = 1) o* 116.
h m
Begins - - - -May 16, 17 55*2!
Greatest Phase 16, 18 22*9 VMean Time at Dublin.
Ends 16, 18 51 -5 J
a„„i« a.^«, v-pA -p^i^ *ef ft™* contact, 166 towards the West")
Angle, from North Pole, of j ^ ^^ ^o toward8 the Eaflt I fw direct
a 1 p \t -x -/first contact 12 7° towards the West ( image.
Angle, from Vertex, of < ,_. ^J? _£o + A „ .^ xw I
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oo
ECLIPSES, 1882.
II. — An Annular Eclipse of the SUN, November 10, 1882, invisible at Greenwich.
ELEMENTS.
h m s
Greenwich Mean Time of 6 in B.A. Nov. 10, 11 26 18 *i
0*s and <[ 'a Right Ascension - - - - 15 4 9*59
<[ 's Declination - - - -- - - - S-1732 5*6
O's Declination - - - - - - - - S. 17 20 34*0
<[ 's Hourly Motion in R. A. - - - - - 32 2*3
O's Hourly Motion in R. A- - - - - - 2 32*0
<[ 'a Hourly Motion in Declination - - - S. 5 48 • o
O's Hourly Motion in Declination - - - S. 41*7
<[ 's Equatorial Horizontal Parallax - - 55 17*8
O's Equatorial Horizontal Parallax - - 9*1
<[ 's True Semidiameter ------ 15 5-6
O's True Semidiameter ------ 16 11 "9
Begins on the Earth generally, Nov. 10, 8 h 22 ln *4, Mean Time at Greenwich,
in Longitude 141 15' E. of Greenwich, and Latitude 2 38' N.
Central Eclipse begins generally, November 10, 9* 28 m '9,
in Longitude 123° 18' E. of Greenwich, and Latitude i° 33' S.
Central Eclipse at Noon, November 10, n h 26 m, 3,
in Longitude 175 33' W. of Greenwich, and Latitude 29 36' S,
Central Eclipse ends generally, November 10, 13 11 i5 m# o,
in Longitude 105 49' W. of Greenwich, and Latitude 21 15' S.
Ends on the Earth generally, November 10, 14 11 2i ma 6,
in Longitude 123 53' W. of Greenwich, and Latitude 17 6' S.
i '• • 1 •
'j .•*4*4>*C
The central and limiting lines of this Eclipse, in the accompanying diagram,
have been laid down from the following calculated positions : —
Digitized by
>o s
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Google
'igitized by
Gobgle
--4-— 4 r5^^
Digitized by
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r*r
y
.'; k ft
2.9x2. ffi
. .vw . < c
• ' « I „• i. . . ■ '
.« 5
iV/, fir-.
J3ff <$> 16*. .
C -
. f«* (S.a&it 'f ' •
tf
JWt* 7-2'
' « /•*• fi* •*£**
ECLIPSES, 1 88a.
40:
line of Central Eclipse.
Longitude.
Latitude.
Longitude.
Latitude.
Longitude.
Latitude.
/
1
1
/
1
'
123 18 E.
1 33 &
167 2 E.
22 2S.
149 50 W.
31 48 s.
130 27
3 5f
173 14
25 13
140 43
30 35
139 13
7 28
179 30 E.
*7 55
131 26
28 39
H5 5*
10 33
173 8W.
166 5
30 15
123 29
26 35
153 18
14 %x
18 18 S.
31 He
32 8S.
113 32
23 39
160 20 E.
158 28 W.
105 49 W.
21 15 S.
Northern line of simple contact
Longitude.
Latitude.
Longitude.
Latitude.
Longitude.
Latitude.
/
/
t
/
t
1
132 49 E.
30 13 N.
177 21 E.
8 53 N.
152 57 W.
1 oN.
144 43
25 50
177 52 W.
6 17
146 43
1 47
152 t
22 39
173 13
168 25
4 7
140 3
3 10
18 56
2 25
132 35
5 6
15 22
l6 o 3 *w
158 35 W.
1 21
125 35
7 12
172 3E.
11 57 N.
52 N;
114 42 w.
10 37 N.
Southern line of simple contact.
Longitude.
Latitude.
Longitude.
Latitude.
Longitude.
Latitude.
/
1
/
9
1
9
99 22 E.
38 39 s.
144 4 E.
58 44 S.
143 57 W.
70 35 s.
106 4
40 5a
*5* 57
160 45
61 58
"5 54
£2 '1
113 X
43 37
64 52
107 39
66 28
120 33
128 58
47 *
171 5E.
67 21
83 36
63 13
51 is
176 29 W.
69 18
60 1
136 27 E.
55 5S.
161 31 w.
70 30 S.
74 10 W.
56 59 S.
Eclipse begins at Sun-set
Longitude.
Latitude.
Longitude.
Latitude.
Longitude.
latitude,
1
1
t
1
9
t
132 49 E.
30 13 N.
115 33 E.
l i «S
96 59 E.
30 32 S.
129 57
29 39
in 21
8 12 N.
96 25
34 37
125 29
27 17
107 35
11S.
96 55
H "0
38 39 S.
120 23 E.
22 20 N.
100 53 E.
17 29 s.
99 22 E.
Eclipse ends at Sun-rise.
Longitude.
Latitude.
Longitude.
Latitude.
Longitude.
Latitude.
/
t
9
/
9
/
1 14 42 W.
10 37 N.
98 13 W.
4 IS.
75 12 W.
49 *7&
Ill 52
10 3
94 5
II 33
73 9
53 17
107 36
7 39 ,
90 1
81 56 W.
19 53
72 29
56 59 S.
102 49 W.
4 21 N.
36 548*1
74 10 W.
26
(nautical almanac,^ 882.)
fikti,.-- *•
Jg l
oi TRANSIT OF VENUS, 188*,
A Transit of VENUS across the SUN'S disc, December 6, 1881,
partly visible at Greenwich.
ELEMENTS.
Greenwich Mean Time of 6 in R. A.
9 *s and 0's Right Ascension - -
Dec 6,
? 'a Declination S.
© 'a Declination S.
9 *s Hourly Motion in R. A. W,
O's Hourly Motion in R.A* - - - - - E.
$ 's Hourly Motion in Declination - - - N.
0'a Hourly Motion in Declination - - - S.
9 'a Equatorial Horizontal Parallax - -
0*8 Equatorial Horizontal Parallax
9 , sTrueSemidiameterf 'JJJJE^
Q'a True Semidiameter \ Vol,VL
h m
4 20
16 52
zz 44
22 33
1
KB, I
». 40. J
16
■
s-S
43 16
"'5
61
33*
49*3
17*5
335
90
314
i3 # o
- Dec 6,
h m ■
* 55 57'
2 16 18
5 4 *
7 51 46
8 12 9J
Mean Time
at Greenwich.
External contact at Ingress - -
Internal contact at Ingress - -
Least distance of centres 10' 41"
Internal contact at Egress - -
External contact at Egress - -
Angle, from North f contact at Ingress 145° towards the E. 1 for dveet
point I contact at Egress 1 14 towards the W. J ""age.
At the times of Ingress and Egress respectively, the Sun will be in the Zenith
at the places whose positions are,
o /
Longitude 31 10W,
36 15 W,
120 6W.
125 11 W.
Latitude
O f
22 41 S.
> of Greenwich.
22 41
22 43
22 43 S.
For any place on the surface of the Earth the Radius being p, the Geocentric
North Latitude / and East Longitude X, the Greenwich Mean time t of firf
external contact may be computed by the formula,
Dec. 6, i h ss m 57" + [2-5471] p sin / - [2-4789] p cos / cos (x— if 55''3)
Hhe/irst internal contact by
Dec 6, 2* 16* i8» + [2-5850] p sin / - [2-4767] p cos / cos (x-85 fj''9)
the last internal contact by~
Dec. 6, 7 h 51* 46- — [2-3129] pain I + [2-6454] poos /oos(X-i38°45'7)
the last external contact by
Dec 6, 8 h i2 m 9» — [2*2397] p sin / + [2-6337] j> cos '°° 8 (^— '35° 9 h $
The quantities in brackets are the logarithms 0/ seconds of time.
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ELEMENTS OF OCCULTATIONS, 1882. 403
Greenwich
Mean Time
At Conjunction in R.A.
Month
.
of Con-
Junction
TjltSLStB
and
Start Name.
1
DiC of
of
Day.
1
inR.A
of
Apparent
B.A.of
Apparent
Declination
Apparent
I/ec. of
Latitude.
*
{and #.
([and #.
of*.
([and *.
h m ■
h m ■
/ »
C
Jan. 1
t Tauri - -
4i
5 35 45
43512-32
N.22 43 45'6
S.51
178. 67 S.
I
1 Tauri - -
5
14 49 29
456 5-14
21 25 10*8
N.38 12
90 N. 21 N.
I
io5Tauri - -
6
* 6 5745
5 054-69
21 32 52*6
N.31 33
79 N. 15 N.
45 N. 8S.
I
n Tauri - -
6
21 59 11
5 12 13*84
215823-8
N. 6 23
N.i 3 8
2
114/rauri - -
6
14224
5203535
2150 3-1
53 N. 3S.
2
5 Tauri - -
I*
6 11 33
53038-23
N.21 4 5-2
N.55 4
90 N. 40 N.
2
B.A.C. 1835
11 13
541 22*30
204929*4
N.62 50
90 N. 5 1 N.
8 S. 68 S.
Z
i4iTauri - -
16 S 8 5
5543656
22 2340*5
S.43 24
Z
B.A.C. 1970
6i
2031 33
6 227*89
22 12 26-7
S.41 11
5 S. 68 S.
1 2
1 Geminor.
3i
22 56 59
6 74792
22 32 17-7
S.6757
50 S. 67 S.
15 Geminor.
6
45*58
62047-10
N.2051 33-5
N.13 15
53 N. »&
3
16 Greminor.
6
4 58 7
62058*33
203350-2
N.30 39
77 N. 9 N.
9 Greminor.
4i
5 2626
622 0*02
2017 I-*
204422-8
N.4545
90 N. 25 N.
g* Geminor.
4
2146 5
657 9-28
7 16 16-27
S.5427
N.29 6
22 S. 69 s.
B.A.C. 2432
6i
64930
182944*0
74N. jN.
f Greminor.
6
I 443*5
175625
7 3242*26
N.17 56 21'4
184738-1
N.I2 12
51 N. 15 S.
g Geminor.
s <?
73919-98
S.6059
N.62 8
32 & 71 s.
1 Cancri -
2319 8
7 5020*00
16 6 6-i
90N.41N.
3 Cancri -
6
1 922
7 54 4'03
173739-9
164635*8
S.43 *
7 S. 72 S.
5 Cancri -
6
1 31 40
7 54 49^5
N. 515
43 N. 24 S.
B.A.C. 2731
6 «?
544 9
8 31931
822 4-60
N.1721 30*5
S.6151
33 S. 73 S.
29 Cancri -
15 7 45
1435505
N.2744
72 N. 4S.
B.A.C. 2872
6
174452
8 27 15-07
13 3928*0
N.61 54
90N.38N.
A 1 Cancri -
6
223447
83644-47
13 5596
N.53 22
90 N. 24 N.
6
A* Cancri -
6
03023
840 30*26
12 32 19*0
N.69 56
90 N. 54 N.
6
60 Cancri -
6
5 849
84931-24
852 4*26
N.12 421*3
12 18 37-0
N.55 5i
90N.26N.
6
a Cancri -
4
62756
11 18 32
N.29 2 7
74 N. 4S.
6
k Cancri -
*
9 123*62
11 8 19*6
12 2 26*0
N.5423
90 N. 23 N.
6
B.A.C. 3122
12 21 15
9 323*82
S. 939
28 N. 44 S.
90 N. 8N.
6
» Leonis •
22 13 32
922 10*45
93358*9
N4240
7
h Leonis -
6
440
9 2540*20
N.io 13 54-2
S.1544
22 N. 52 S.
7
14 Sextantis
6
1849 23
20 843
10 039-20
6 1058*5
N.3342
81 N. 3S.
7
16 Sextantis
6
10 5 5*88
10 041*86
6 44 42 • 6
S. 14 4
24 N. 52 S.
2
19 Sextantis
6
22 541
51137*7
N.58 15
90 N. 26 N.
34 Sextantis
6
1421 12
103633-74
41144-7
S.58 3
24 S. 86 S.
8
36 Sextantis
6
154438
10 39 6*46
1046 11 '80
N. 3 618-1
S. 752
30 N. 46 S.
87 N. iS.
8
B.A.C. 3726
6
1937 8
139 0*3
N.3646
8
55 Leonis . •
6
21 31
104940*06
1 21 46*0
N.33 2
N.28 56
79 N. 5S.
9
p* Leonis -
6
1 51 16
10 57 36*07
03751-3
72 N. 9S.
9
p* Leonis -
5
7*4 3
11 745*02
N. 034 93
S.2855
9 N. 72 S.
9
e Leonis -
I
1625 58
11 24 i8-8i
S. 221 18*8
N.46 8
N.61 1
88N. 9N.
85 N. 28 N.
10
B.A.C. 4006
340 7
1 1 45 2-38
44049*1
8 128*0
10
B.A.C.4201
6
23 2056
122154-37
N.46 40
N.00 39
82N. 9N.
11
2 1 Virginis -
6
224 5
12 2742*76
t2 33 10-84
848 10*9
81N.27N.
11
X Virginis -
5
5 15 45
S. 7*0 53-4 S.57 6
24 S. 90 S.
2 D 2
O
:lements of occultations, 1882.
Greenwich
Mean Time
At Conjunction in JUL
of Con-
j miction
Limits
Star** Name.
1
Diftof
of
1
inftA.
of
R.A. of
Apparent
Declination
Apparent
Dec of
Latitude.
Cand #.
Cand*.
of*.
Hand *.
h m •
h m ■
$ *
B.A.C. 4259
6
51958
12 33 18*92
S. 723 3-1
s.5541
22 S. 90 s.
B.A.C. 4312
6J
II 32 3
124515-70
1248 14*38
94151-1
N.I75I
54 N. 20 S.
ty Virginia -
5
13 410
85359-0
10 637*4
S.46
1 1 S. 90 S.
49 Virginis -
6
19 58 14
13 i44**9
S.4414
10 S. 90S.
i Virginis -
6
5*4 7
132030-37
12 540*8
S.19 7
15 N. 59 S.
B.A.C. 4531
6
9 19 18
132825-44
S.12 3635*0
S.26 6
8 N. 68 S.
B.A.C. 4679
6 }
234043
1358 5-00
1424 15*8
S.5023
19 S. 90 S.
B.A.C. 4700
6
24033
14 424*82
154441-6
N. 4 2
35 N. 34 S.
B.A.C.4896
6
2120 4
14 44 59*7*
17 17 56-1
S.5017
23 S. 90 s.
1 1 Libras - -
44
62457
15 5 3<>"57
192038*6
N.i 1 3
36 N. 27 S.
i' Libras - -
?
65351
15 636*69
S.1912 7-6
S. 031
24 N. 38 S.
B.A.C. 5109
15 12 8
15 25 50-61
19 16 2*9
S.45*'
20 S. 90 S.
k Libras - -
5
19 940
15 35 9*59
154629-68
15 51 6-55
19 1742-0
194844*8
S.6423
45 S. 90 S. !
X Libras -
6
235528
S-55 53
33 S. 90 s.
8 N. 53 S.
B.A.C. 5281
6
15052
20 38 12*6
S.1447
»■ Scorpii -
4
52936
'5 59 54-94
16 029*72
S.20 20 5I*3
S.46 45
23 S. 00 s.
12 S. 83 S.
«' Scorpii -
V
5 43 57
818 5
2032 53-4
S-35 37
B.A.C. 5395
» Ophiuchi
16 644-94
21 549-6
S.1155
9 N. 50 S.
4
15 46 38
1625 8*99
164941-65
21 1241*8
S.*7 7
7 S. 69 S.
24 Ophiuchi
13443
225737*9
N.60 19
67N.25N.
B.A.C. 5758
6
51850
1659 9*55
171356-19
S.21 23 51*9
8.3633
S.62 10
18 S. 84 S.
£ Ophiuchi
5
11 6 16
2059 1*4
46 S. 90 s.
B.A.C. 5866
6
12 32 56
171738-41
211943*4
S.40 53
22 S. 90 S.
B.A.C. 5954
6
17 59 45
19 48 48
173139-82
21 5020*3
S. 514
12 N.43 S.
58 Ophiuchi
5
17 3621-67
213723*4
S. 15 30
3N.54S.
B.A.C. 6088
6
25423
'7 54 45-49
8.224632*4
N.68 59
67N.38N.
B.A.C. 6098
6
31323
17 55 3490
22 63485
22 1056-88
2044 9-3
S.52 32
31 S. 90S.
B.A.C. 7744
6
65225
518 5-2
S.55 59
15 S. 90S.
44 Aquarii -
?
84350
55829-3
N. 940
N.18 3
46 N. 29 S.
51 Aquarii -
"43 33
22 1758-02
5*5 57*5
55 N. 22 S.
k Aquarii -
5
17 35 53
223138-79
S. 450 7*0
N.62 59
85N.21N.
3 Piscium -
B.A.C. 8152
6
3 3*3*
225434-93
231728-53
2646*3
S.62 47
22 S. 90 S.
6i
13 34 38
S. 021 23-5
N. 036388
N.70 19
90 N. 32 N.
k Piscium -
44
15 4 53
15 13 16
232053*33
N.32 54
73 N. 8S.
9 Piscium -
6»
23 21 12*34
028 33-1
N.42 55
90 N. 1 N.
16 Piscium -
6
19 16 19
23 3022-43
N. 1 2655-4
N.39 50
N.1643
85 N. 2S.
19 Piscium -
6
2342 10
23 40 22*14
250 0-3
54 N. 23 S.
d Piscium -
*
1456 11
14 32*13
7 32 10*2
S.6455
26 S. 82 S.
45 Piscium -
171255
20 1248
01937*51
7 223-8
S. 6 5
32 N.43 s.
51 Piscium -
6
026 19*14
6 18 21-7
N-75 45
90 N. 47 N.
ioiPIscium -
6
03324
2 646
1 2928-97
N.14 333-7
S.61 40
25 S. 76 S.
io4Pi8cium -
6 i
1 32 57'2i
13 41 20*7
S.23 15
16 N. 56 S.
ic^Arietia -
17 11 18
2 638-31
144339-5
17 1057-8
N.60 17
90 N. 31 N.
2 7Arietis -
6
1 627
2 2423*18
S.19 3
19N.48S.
40 ArietiB -
6 8 55 35
241 56-83 IN.I747 343
N. 515I
43 N. 23 S.
o
ELEMENTS OF OCCULTATIONS, 1882. 40
Greenwich
Mean Time
At Conjunction in R.A.
Month
of Con-
limits
and
Star's Name.
i
junction
Diff.of
of
Day.
inB.A.
of
Apparent
It. A. of
Apparent
Declination
Apparent
Dec. of
Latitude.
*
<«nd *.
Cand #.
of #.
<£and#.
h m •
h m ■
1 9
/ H
Jan. 26
* Arietis -
2
91633
24244*01
^165827*4
N.5657
90 N. 30 N.
26
f Arietis -
12 913
249 12 '40
1751 15*9
N.24 5I
66 N. 3S.
90N.16N.
26
f l Arietis -
6
1225 7
24948*20
173311*5
N4447
26
54 Arietis -
H
17 41 56
3 141*53
18 2032*3
N.32 59
79 N. 6N.
26
a Arietis -
4i
19 738
3 454*69
19 16 50*5
S. 14 13
24 N. 39 S.
26
B.A.C. 1032
6*
23 12 26
3 14 6*6o
N.20 455-1
S.3732
67 S.
27
t' Arietis -
5,*
235
3 15 59' 70
20 19 12*8
S.46 50
S.46 38
10 S. 70 S.
*7
65 Arietis -
6
O4657
31739*76
2023 4-5
10 S. 70S.
27
13 Tauri - -
5 <?
842 l8
3353258
19 1920*7
N.5831
90N.37N.
*7
B.A.C. 1 143
9 37 5'
33738-01
203313-3
S.10 59
27 N. 33 S.
27
B.A.C. 1242
6
17 7
18 32 34
3541656
N.1952 10*4
N.61 26
90 N. 45 N
*7
A Tauri - -
V
3 5745'*5
35823*14
214531-5
S.46 8
10 S. 68 S.
11
39 Tauri - -
18 49 21
21 41 24*3
S.41
4 S. 69 S.
»■ Tauri - -
5 <?
8 20
4 1022*89
20 17 15-2
N.60 49
90 N. 44 N.
28
53 Tauri - -
* S 7
4 12 30-92
2051 23-5
N.29 29
74 N. 8N.
28
56 Tauri - -
6
* 9 5
4123987
4 18 22-38
N.21 29 17-7
S. 814
29 N. 28 S.
28
k 1 Tauri - -
44
341 2
22 1 21-0
S.3319
4N.57S.
28
*• Tauri - -
6*
34227
4 1825*58
215547*3
S.2742
10 N. 50 S.
36 S. 67 S.
28
v* Tauri- -
44
4 5 17
41917*05
421 3*06
22 3242*3
S.6337
28
B.A.C. 1373
6
45221
21 21 27*2
N. 936
48 N. 9S.
28
t Tauri - -
44
11 935
2028 3
4351213
N.22 43 45-5
21 25 io*6
S.5927
29 S. 67 s.
28
1 Tauri - -
5
456 5*00
N.30 26
77N.14N.
28
1 05 Tauri - -
6
22 3730
5 05456
21 32 52-4
N.23 57
66 N. 7N.
29
n Tauri - -
6
3 4IS3
51213-73
215823-7
S. 049
37 N. 16 S.
29
ii4Tauri - -
6
72720
52035-25
2150 3-0
N. 614
45 N. 9S.
29
5 Tauri - -
11 59 16
5303815
N.21 4 5-0
N.48 32
90 N. 32 N.
29
B.A.C. 1835
16 50 59
541 22-25
204929*2
N.56 42
90 N. 43 N.
15 S. 68 S.
29
141 Tauri - -
22 52 40
I 5436 'IS
6 227*88
22 2340*6
S.49
30
B.A.C. 1970
*
2 28 22
22 12 26*7
S.46 29
12 S. 68 S.
30
15 Geminor.
IO55 1
62047-13
205133-3
N. 843
47H. 12 S.
3°
16 Geminor.
6
11 13
62058-37
N.20 33 49*9
N.26 9
N.41 18
70 N. 5N.
3°
y Geminor.
44
II 28 50
622 0*06
2017 1*0
90 N. 21 N.
3i
5" Geminor.
4
3 57 4f
657 9-41
204422*5
S.5719
27 S. 69 S.
3i
B.AC. 2432
6 <?
13 538
7 16 16-44
18 2943-2
17 5620*5
N.27 9
71 N. iN.
3i
f Geminor.
21 2 51
73242-47
N.i 1 5
50 N. 16 S.
Feb. 1
g Geminor.
?
OI7 4
7 39 20*21
N.i8 47 37'3
S.6147
34 S. 71 S.
1
1 Cancri -
5 4«33
7 5020-26
16 6 4*7
17 37 38-8
N.61 56
90N.41 N.
1
3 Cancri -
6
73219
7 54 4'*9
S.43 3
7 S. 72 S.
1
5 Cancri -
6
7 54 43
7 54 49^0
8 3i9*59
164634*6
?v s I7
43 N. 24 S.
1
B.A.C. 2731
64
12 8 17
1721 29*3
S.61 21
32 S. 73 S.
1
29 Cancri -
6
"33 44
822 4*92
N.I4 35 48-8
N.29 l &
74N. 2S.
2
B.A.C. 2872
6
11 12
8 27 15*41
13 39 26*0
N.6345
90 N. 42 N.
2
A' Cancri -
6
5 '37
8 3044-84
13 5 57-5
N.55 45
N.58 58
90N.27N.
2
60 Cancri -
6
11 36
8 49 31*62
12 4 19*0
90 N. 3 1 N.
80 N.
2
a Cancri -
4
1255 8
852 4*63
N.n 18 34*7 :,N.32 42
o
LEMENTS OF OCCULTATIONS, 1882.
Starts Name.
Greenwich
Mean Time
of Con-
junction
inR.A.
of
<[and #,
At Conjunction in B.A.
Apparent
Declination
of*.
Difcof
Apparent
Dec of
(and*
limits
of
k Cancri -
B.A.G. 3122
» Leonis -
h Leonis -
Leonis -
B.A.C. 3407
r Leonis -
14 Sextantis
16 Sextantis
19 Sextantis
34 Sextantis
36 Sextantis
B.A.C. 3726
55 Leonis -
p % Leonis -
p s Leonis -
e Leonis -
B.A.C. 4006
B.A.C. 4201
X Virginis -
B.A.C. 4259
B.AC.4312
^ Virginis -
49 Virginis -
50 Virginis -
% Virginis -
B.AC.4531
B.A.C. 4679
B.AC.
B.A.C.
1 1 Libras- -
j* Libr® - -
B.A.C. 5109
41 Libra - -
k Libra - -
X Libr© - -
B.AC. 5281
w* Scorpii -
a* Scorpii -
B.A.C. 5395
w Opbiuchi
24 Opbiuchi
B A.C. 5758
£ Opbiuchi
B.A.C. 5866
4700
4896
h
1745
1848
4 39
630
11 24
m s
41
22
58
5*
26
2030 25
21 38 8
1 1234
23139
428 14
204033
22 344
1 55 34
3 49 7
8 846
134056
22 42 21
9 57 4
5 43 J
1 1 40 36
114451
18 o 34
193340
2 32 50
33017
12 715
16 6 30
6 45 35
9 49 37
4 59H
14 20 51
14 50 40
23 25 20
2 11 22
3 30 57
8 2640
1026 6
14 12 37
142727
17 7 7
051 48
11 1 2
H53 7
205243
22 22 22
h m ■
9 I 24*02
9 3*4'*3
9 22 10*92
9254065
9 34 53*74
•*3
•24
*74
9 5155
9 54 1
o 039
o 3 6-43
o 642*42
03634*35
039 7*06
046 12*43
049 40 69
57 36*69
1 745*66
12419*49
145 3*09
22155*17
2 33 11 61
2 33 19*69
24516*49
24815*17
3 i4 n
3 3368
3 20 31*20
3 2826-28
358 5*90
4 4*5*7°
4 45 0-64
5 5 3^48
5 637*59
52551*51
532 8-8i
53510*52
546 30*60
5 5i 7'44
55955*82
6 030*61
6 645*82
625 9*88
6 49 42 • 50
6 59 10*38
71356*99
7 '7 39-^Q
o / *
N.11 817*1
12 223*6
9 33 55*8
101351*4
1025 27*0
N.
! 5 2T 5
83618*7
61054*7
64438*9
5"33'7
N.
S.
4 11 40'
3 613'
138 55-
1 21 41*
37 46'
34 4'7
2 21 23*8
44054*3
8 i 3 t-6
72058-6
723 84
041 565
8 54 4'3
10 642-8
942 9*0
S.12 546*1
12 3640*2
142420-8
1544 464
17 18 0*4
S. 19 2042
19 12 11
19 16 6
185446
19 17 45
S. 19 48 48
2038 15
202054-1
2032 56-1
21 552*2
.21 1244*2
22 57 39-6
212353
20 59 2
.21 1944'
N.58 12
544
N4742
S.1030
S.71 4
S.71 12
S.6658
N41 o
S. 638
N.65 54
S.4843
N. 136
N.46 36
N.43 4
N.39 23
S.1759
N.57 52
N.73 38
N.60 34
S.42 53
S.41 27
N.32 22
S.3125
S.2922
S.6328
S. 3 57
S. 10 51
S.3456
N.1929
S.34 59
N.26 8
N.1433
S.3034
S.66 10
S.4945
S.41 28
S. 028
S.3238
S.21 30
N. 2 3
S.I3 37
N.73 7
S.24 3
S.50 9
S.2859
o o
90 N. 29 N. ,
32 N. 39 S,
90 N. 15 N.
27N.4.6S.
52 S. 80 S.
52 S. 81 s.
40 S. 81 &
90 N. 5 N.
31N.44S.
90 N. 39 N.
12 S. 86 S.
39 N. 36 S.
90 N, 10 N.
90 N. 6N.
90 N. 2N.
20 N. 57 S.
88 N. 24 N.
85 N. 59 N.
82 N. 28 N.
7 S. 90 S.
6 & 90 S.
73 N. 6&
4N.76S.
6N.73S.
36 S. 90 S.
29N.42S.
22N.49 &
3 S. 83 S.
50N.18S.
7S. 83 S.
53 N. 12 S.
40N.23 s.
6 S. 75 S.
49 S. 90 s.
26 S. 90 s.
18 S. 90S.
22 N. 38 S.
10 S. 78 S.
1 N. 62 S.
22 N. 36 S.
6N.52S.
67N.57N.
7 S. 65 s.
33 S. 90 S.
1 1 S. 72 S.
Digitized by
Google
ELEMENTS OF OCCULTATIONS, 1882. 40
Month
and
Dty.
Feb. 13
13
13
*3
*3
13
13
13
13
14
«4
14
H
14
«4
14
*5
20
20
20
21
21
22
22
22
22
22
22
23
23
23
23
*3
*3
23
23
*3
*4
*4
24
*4
*4
H
Start Name.
B.A.C. 5954
58 Ophiuchi
B.A.G6081
BJLC. 6098
p Sagittarii
14 Sagittarii
15 Sagittarii
16 Sagittarii
21 Sagittarii
B.A.C. 6336
B.A.C.6347
29 Sagittarii
f Sagittarii
B.A.C. 6536
d Sagittarii
p 1 Sagittarii
p* Sagittarii
B.A.C.6658
g Sagittarii
d Piscium -
45 Piscium •
51 Piscium -
loiPiscium -
i04Piscium -
i9Arieti8 -
27 Arietta -
40 Arietta •
9 Arietta -
f Arietta -
f Arietta *
53 Arietta -
54 Arietta -
ft Arietta -
B.A.G. 1032
t* Arietta -
65 Arietta -
13 Tauri - -
B.A.G. 1 143
B.A.C. 1242
A Tauri - -
39 Tauri - -
•• Tauri - -
53 Tauri - -
56 Tauri - -
jc 1 Tauri - -
Greenwich
Mean Time
of Con-
junction
inB.A
of
C«nd#.
m s
O 16
h
55256
12 2949
13 3M5
I7S5S8
18 711
183047
18 31 22
22 30 59
3 2650
3 50 45
8 5 4*
11 624
1526 4
19 719
2044 o
20 47 14
23 14 52
11 551
02353
23538
|28 5 8
847 6
10 17 8
05030
83023
16 5 22
162545
19 1528
1928 56
14 16
037 5
2 032
648 3
7 31 19
15 '5 47
16 10 9
232335
05419
1 1048
624 18
720 10
7M 4
9 53 40
At Conjunction in B.A.
Apparent
RA.of
([and*.
h m ■
17 3140*62
173622*46
175259*52
17 55 35^3
18 643*07
18 711*46
18 811*19
18 8l2-6
18 18 19-8;
18 3051*19
183151*99
184240*45
18 5020*34
19 121*31
19 1044*26
19 14 50* 15
191458*37
1921 13*71
19 511573
o 14 31*90
19 37*28
026 18*89
1 2928*62
1 32 56*86
2 637*91
2 24 22
24I 56
24243
2 49 II
2 4947
3 048
3 141
3 4 54
314 6
3 15 59
3*7 39
3 35 3*
3 37 37
35416
35744
3 5822*
4 10 22'
4 12 30
41239
4 18 21'
Apparent
Declination
of*.
o 1 a
S.2I 50 21'
213724'
20 19 47'
2044 10 '
21 514
8.214431'
204539
2025 15
2036 9
21 2937
S.21 856
202722
204828
19 28 21
19 936
S.18 4 1
18 31 27
« l83 l 4a
S.1548
N. 73a
N. 7 221
6 18 19
H 3 3;
1341 18
H43 37
77^.171055*9
40 1747 32*5
98
78
08
•a
57
12
80
69
45
48
43
94
1658 25*7
1751 142
1733 9-8
N.I7 2S27 , 3
182030*6
19 1649*0
20 4 53 -6
20 19 11*3
N.20 23 3*i
1919195
2033 12 *t
1952 9-3
214530-5
N.2141 23*3
20 17 14*3
2051 22'0
21 29 l6'8
N.22 I2Q'9
i
N. 610
S. 417
S.69 2
S.42 5
S. 816
N.31 37
S.2557
S.46 20
S.21 7
N.53 16
N.34 26
N.i 3 56
N.51 33
S. a 34
N. 255
S.51 30
5.23 41
S. 139
S.72 16
8-77 34
S. 18 59
N.62 34
S.384I
N44I4
S.35I7
S.11 6
N4036
N. 829
N.28 25
N.69 8
N.16 37
S. 30 36
S.53 53
S.63 20
S.6258
N42 17
S.27 12
N4524
S.62 8
S.5659
N45 o
N.I3 42
5.24 1
S.49 1
Limits
of
Latitude.
22 N. 32 S.
13N.42 S.
54 S. 90 S.
21 S. 90 s.
I2N.46S.
53 N. 78.
4 S. 66 S.
23 S. 90 S.
2N.60S.
69N.15N.
58 N. 5S.
36N.25S.
69N.13N.
22N.40S.
27 N. 35 S.
23 S. 90 S.
5N.63S.
25 N. 39 S.
46 S. qo S.
45 S- 82 S.
21N.54S.
90 N. 24 N.
52 S. 76 S.
2 N. 74 S.
90 N. 12 N.
4N.66S.
27 N. 38 S.
90 N. 10 N.
46 N. 19 S.
70 N. o
90 N. 50 N.
55 N. 10 S.
8 N. 58 S.
8S. 70S.
70S.
^. 70 S.
N. 18 N.
51 S.
23 N.
68 S.
31 S.
3i
90
11
90
32
24 S. 68 S.
90 N. 24 N.
52 N. 7S.
14 N. 45 S.
14 S. 68 S.
Digitized by
c
00
o
4 o8 ELEMENTS OF OCCULTATIONS, 1 88a.
Month
and
Day.
Star's Name.
Greenwich
Mean Time
of Con-
junction
InRJL
of
(and #.
At Conjunction in R.A.
Apparent
R.A. of
€and#.
Apparent
Declination
of *.
Diftof
Apparent
Deo. of
Cand#.
Feb. 24
24
*5
25
*5
25
25
u
26
26
26
26
27
27
28
28
28
28
28
28
Mar. 1
1
1
1
1
1
1
2
«■ Tauri - -
B.A.C. 1373
1 Tauri - -
f05Tauri - -
n Tauri - -
H4Tauri - -
$ Tauri - -
B.A.C. 1835
14 1 Tauri - -
B.A.C. 1970
15 Geminor.
16 Geminor.
v Geminor.
5* Geminor.
B.A.C. 2432
f Geminor.
g Geminor.
1 Cancri -
3 Cancri -
5 Cancri -
B.A.C. 2731
29 Cancri
B.A.C. 2872
A' Cancri
A 1 Cancri
60 Cancri
a Cancri
k Cancri -
B.A.C. 3122
» Leonis -
A Leonis -
Leonis -
B.A.C. 3407
v Leonis -
14 Sex tan ti s
16 Sextan tie
19 Sextantis
34 Sextantis
36 Sextantis
B.A.C. 3726
55 Leonis -
p* Leonis -
p* Leonis -
e Leonis •
B.A.C. 4201
?
6
6
I!
6
6*
6
6
4i
4
6
*
6
6
6J
6
6
6
6
6
4
5
¥
bras
9 55 4
11 3 55
22823
43640
9 38 34
13 22 31
17 52 58
22 43 28
444 7
8 1928
164556
1651 8
17 19 45
9 50 34
19 o 19
25925
61428
1 1 40 22
I3 3»37
1354 6
18 846
33632
6M36
11 6 3
13 2 10
174138
19 059
23 52 14
o55 3
104730
12 38 30
1732 9
23750
3 45*9
719 34
83831
10 34 51
*44 6
4 6 55
7 5744
9 50 45
H 9 5
19 39 28
43744
ii_27_i_7
h m •
41825*14
421 2*6
456 4*5
5 «54' 14
51213-33
5 *o 34
53037-
54121'
5 54 36
6 2 27*
62046'
62058'
6 2 1 59 '
65 l f
7 16 16'
73242-
7 39 20'
75020-
7 54 4 1
7 5449"
86
7«
89
'9
55
83
76
'17
*4
06
*3
»7
39
O I If
N.21 5546*6
21 21 26*4
21 25 10*1
21 32 52*0
21 58 23 a 4
N.2150 2*8
21 4 4*8
204929*1
22 2340*7
22 12 26*9
8 319*49
8 22 4*86
82715*36
83644*81
8 40 3o # 6o
84931*63
852 4*65
9 124*06
9 3H27
922 11*00
92540
9 34 53
95155
954 i'
10 039*
10 3 6'
10 642'
103634'
1039 r
IO46 12'
104940*
105737-
n 746*
11 24 19'
12 21 55-
•29
4'
•91
60
60
60
33
71
98
00
00
87
66
N.2051 33'
20 33 50*
20 1 7 1 a
204422'
182943*
N.I7 56 20'
1 4737'
16 6 4'
173738-
164634-
N.1721 2
H35 4
133925
13 556
12 32 16
N.12 418-2
12 1034*0
iz 816*1
12 222*8
93354*6
N.io 13 50*3
1025 25-9
852 16*1
8 36 17*2
6 1052*9
N. 64437*2
51131*7
41138-3
3 611-3
13853*0
N. 12138*6
kt ° 3743
N. o 34 1
S. 2 21 27*2
S. 8 1 37 6
S.4523
S. 6 3
N.152
N. 9
S.1523
S. 8
N.34 2
N4257
S. 6221
S.59 34
S. 343
N.28 54
5.68 18
N.17 3
N. 147
S.7045
N.53 33
S.5113
S. 2 51
5.69 1
N.22 43
N.57 30
N.50 6
N.67 6
N.54 8
N.28 2
N.54 9
S. 939
N.45 5
S.12 52
S.7247
S.7140
S.6717
N41 11
& 616
N.66 32
S.45 52
N. 4 39
N.50 11
N.46 55
N4348
S. 1249
N.64 13
N.7040
o o
7 S. 68 S.
31N.25S.
55 N. 1 S.
47 N. 7 S.
22 N. 30 S.
29 N. 24 S.
84 N. 18 N.
90 N. 25 N.
36 S. 68 S.
31 S. 68 S.
34N.24S.
53 N. 8S.
74N. 8N.
51 S. 69 S.
57 N. 9S.
40N.25S. 1
62 S. 71 S. :
90 N. 29 NJ
18 S. 72 S.
3SN.32S.
51S.73S.
64N. 8S.
90 N. 31 K.
90 N. 20 N.
90N.48N.
90N.* 5 N.
72 N. 5 S.
90 N. 24 N.
28N.44&
90 N. 12 N.
25N.48 S.
62 S. 80 8.
54 S. 81 s.
41 S. 81 s.
90 N. 6N.I
31N.43 S. I
90N.41 N.
9 S. 86 S.
42 N. 33 S.
90N.15NJ
90 N. 11 N.'
90N. 7N.
25N.51 S.
88 N. 34 N.
82N.48 N.
Digitized by
c
00
o
ELEMENTS OF OCCULTATIONS, 1882. 4 og
Greenwich
Mean That
At Conjunction in R.A.
Month
4
1
of Con*
limit*
and
Star's Name.
junction
Diftof
of
Day.
1
inRA.
of
Apparent
R.A.of
Apparent
Declination
Apparent
Dec. of
Latitude.
i and #.
C and *.
of*.
(and*.
h m i
h m ■
/ w
1 t
Mar. 6
X Virginia -
5
1723 5
123312-14
S. 721 2-6-S.32 8
4N.77S.
6
B.A.C. 4*59
6
1727 19
12 33 20-22
72312-3
S.3042
5N.75S.
6
B.A.G.4312
6J
234125
I245 I705
942 07
854 8-4
N.43 47
80 N. 7N.
7
i|> Virginia -
5
1 14 11
I248 I575
So 19 51
16 N. 59 S.
7
49 Virginia -
6
8 12 4
13 145-71
10 646-9
S.17 9
18 N. 56 So
7
50 Virginia •
6
9 922
*3 3 37*45
So 942 13*0
S.51 9
19 So 90 So
7
t Virginia -
6
17 45 35
132031/83
12 550*2
N. 9 7
43 N. 28 S.
I
B.A.C.4531
6
21 44 51
13 28 26-93
1236444
S. 20 28
35 N. x$ S.
11N.60S.
B.A.C. 4679
6*
1226
1358 6*6o
142424-9
8
B.A.C. 4700
6
153056
14 426-41
154450-5
N.34 9
70 N. 3 S.
9
B.A.C. 4896
6
10 50 15
1445 1-42
S.1718 4*1
So 19 19
N42 8
9N.59S.
9
1' Libra - -
4i
20 19 26
15 532-28
15 638*40
192045*0
19 12 I4'8
71 N. 6N.
9
1 1 Libra - -
5 <?
204941
N.3035
59 N. 7 S.
10
B.A.C. 5109
§ 33 5
152552-37
1532 9-64
10 16 9*6
18 54 49- 3
S. 14 19
10 N. 53 S.
10
41 Libra- -
6
822 18
So 49 5*
27 S. 90 S.
10
« Libra - -
i
943*8
153511-35
S. 19 1748*4
1948 50-8
S. 33 25
9 S. 80 S.
10
X Libra- -
14 45 H
154631-44
S. 25 4
2 S. 67 S.
10
B.A.C. 5281
6
164729
15 51 8-29
2038 18-3
N.15 58
S.66 3
38 N. 21 S.
10
fP Soorpii -
2
20 422
155836-84
192856-7
52 S. 90 s.
10
0* Scorpii -
5i
20 4 31
155837-19
192843-7
S. 66 17
52 So 90 So
10
a" Scorpii -
4
20 39 16
155956-67
S.2020 56-7
S. 16 II
6 N. 55 S.
10
»• Scorpii •
4i
20 54 29
16 031*46
2032 58-7
S. 5 4
16 N. 43 S.
10
BJLC.5395
6
2338 2
16 646-68
*i 5 547
21 1246*3
N.1830
40 N. 19 S.
11
« Ophiuchi
5
7 35
1625 10*75
N. 250
21 N. 35 S.
11
B. AC. 5758
6
22 1 30
165911-25
2123549
S. 748
8 N. 46 S.
12
£ Ophiuchi
5
41255
171357-88
S.2059 4*o
£ 3+ 1
17 S. 81 So
12
B.A.C. 5866
6
5 45 36
17 1740*10
21 1945-8
S.1256
3 N. 51 S. ,
12
B.A.C. 5954
6
11 35 11
173141-48
21 50 22'I
N.22 1
40 N. 16 S.
12
58 Ophiuchi
5
13 31 51
173623*32
21 3725*0
N.i 1 30
28 N. 26 S. i
12
B.A.C.6081
6
2023 7
1753 0*35
20 1947*8
S. 53 32
33 S. 90 S.
12
B.A.C. 6098
6
21 27 19
175536*46
S.2044 I0'4
S.2638
6 S. 68 S.
13
p Sagittarii
4
2 1 22
18 643*92
21 5 I5'0
N. 657
26 N. 31 S.
»3
14 Sagittarii
6
2 13 1
18 712*32
18 8 1203
2I443I-9
N4650
68 N. 9N.
13
15 Sagittarii
i
2 3730
238 6
20454O-O
S. 10 47
9 N. 49 S.
13
16 Sagittarii
18 813*49
20 25 15*9
S.31 9
9 s. 75 s.
x 3
21 Sagittarii
B.A.C. 6336
i
64646
18 1820*72
S.2036 9*o
S. 610
15 N. 44 S.
13
11 53 52
12 1842
183051-99
212937-4
N.67 53
69 N. 38 N.
*3
B.A.C. 6347
6|
183152-79
21 856-5
N.49 1
N.28 14
69 N. 11 N.
13
29 Sagittarii
6
164324
1842 41*22
202722*2
52 N. 10 S.
13
£' Sagittarii
6
1951 1
18 5021*10
204827-8
N.65 37
69 N. 33 N.
14
B.A.C. 6536
6*
020 36
19 122*08
S. 19 28 20-8
N.i 1 8
35 N. 27 S.
14
d Sagittarii
5
4 10 13
19 1045*01
10 935-6
18 4 O'l
N.16 18
40 N. 22 S. '
H
p 1 Sagittarii
4
5 50 33
191450-89
S. 38 16
10 S. 86 S.
14
p % Sagittarii
Si
2 535 i
827 6
191459-11
18 31 26-5
S. 10 27
16N.48S.
H
B.A.U. 6658
6
1921 14*44 S.18 3541*0
N.i 1 21
j7 N. 27 S.
Digitized by VjOC
O
io ELEMENTS OF OCCULTATIONS, 188a.
Month
and
Daj.
Start Name.
J>
Greenwich
Mean Time
of Con-
junction
inRA.
of
(and*.
At Conjunction in BJL
Apparent
R.Aof
Cand #.
Apparent
Declination
of*.
DtflL of
Apparent
Dec of
([and*
Iimita
of
Mar. 14
14
IS
15
15
is
is
15
15
15
16
16
16
16
16
16
21
21
22
22
22
22
22
22
22
22
22
23
23
23
*3
23
23
23
23
23
24
24
24
24
24
24
25
25
_?5
e* Sagittarii
^ Sagittarii
B.A.C. 6992
ft Capricor,
B.A.C. 7087
1 3 Capricor.
14 Capricor.
B.A.C. 7221
B.A.C. 7242
8 Aquarii -
y Aquarii -
17 Aquarii -
19 Aquarii -
£ Aquarii -
c s Capricor.
c" Capricor.
19 Arietis -
27Arietis -
40 Arietis -
9 Arietis -
p* Arietis -
p Arietis -
53 Arietis -
54 Arietis -
ft Arietis -
B.A.C. 1032
13 Tauri - -
B.A.C. 1 143
B.A.C. 1242
39 Tauri - -
«• Tauri - -
53 Tauri - -
56 Tauri - -
ic 1 Tauri - -
k % Tauri - -
B.A.C. 1373
1 Tauri - -
/ Tauri - -
i05Tauri - -
n Tauri - -
ii4Tauri - -
B.A.C. 1733
? Tauri - -
B.A.C. 1835
X 1 Ononis -I
h
6
¥
Si
4i
4i
6
6
6
6
Si
6
6
6
6i
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6i
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6
6
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6
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6
5
?
6
6
6*
3J
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h m a
13 39 l6
804356
5 745
61333
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1258 6
1*46 s
ID 32 9
19 32 49
22 21 55
22447
8 1 6
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14 14 6
17 1020
1748 i S
104234
18 848
i*9 57
14942
43217
44716
92348
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11 64
1458 :
235742
05025
75056
9 35 *
14 39 3»
*5 33 49
i« 37 36
18 3 o
18 421
19 11 19
10 11 41
12 1543
12 1651
17 11 45
205043
233044
1 1525
6 o 61
8 4i 5 4 1
h m •
193358-65
I95H637
2014 955
20 1423-65
202738-20
ao30 44-97
203241*14
2044 12*52
204638*87
205326*42
21 3 10
21 1637
21 1853'
21 31 20
213843
213059
2 637'
2 24 22 '
241 56'
24243'
249II-
*4947"
3 °47"
3 14°'
3 453"
56
•18
•64
•06
■62
•44
04
•23
60
40
I 9
85
3*4 5*73
3 35 3i'7»
3 37 37'"
35415-65
3 58 22*22
4 1021*98
4 12 30*01
4 12 38*96
4 1821*46
4 1824*66
421 2*
456 4*
5 050*
5 053*
5 12 12*82
5 2034*36
5 26 39*26
53037-26
54121-37
54 7*5'33
8.163339-5
1548 83
15 9H"3
>5 9 49
14 7 29- 1
S.15 33 io-6
152158*7
125847*6
12 1 5*4
13 30 25 9
S.11 5050*8
949 136
10 1457*2
82254*3
93721*0
SI
S. 949 7
N.144335
171054
174730
165823'
N.I75I 12'
1733 8'
1725 25*
182028'
^1647-
N.20 451
191917
2033 10
1952 7
2141 21
N.20 17 13
20 51 21
21 29 15
22 1 19
"55 45
N.21 21 25
21 25
20153
21 32 51
21 58 22
N.2150 2*3
2023 12*0
21 4 4-4
204928*8
N.20 15 4*6
s.7223
S.6031
S. 14 12
S.13 26
S.21 2
N.7749
N.74 54
S.1738
S.64 19
N.56 15
N. 246
S. 52 46
H S3 Z
S.6258
N.49 39
N.68 10
N.32 o
S.4811
S.24 35
N.27 5
S. 514
N.1441
N.55 6
N. 233
S.4444
S.68 15
N.27 2 9
S.42 3
N.30 17
S.72 10
N.29 40
S. 140
S.
a
s.5848
s.21 30
S. o 11
N.70 38
S. 634
S.31 4
S.2348
N.61 17
N.1849
N.27 20
N.57 11
6426
o o
51 S. 90S.
31 S. 90S.
17N.51S.
18N.S1S.
12 N. 59 S.
74N.52N.
75N.44N.
17N.55S.
30 S. 90S.
76N.16N.
36N.35S.
15 S. 90S.
20N.53S.
25 S. 90 s.
80N. 8N.
80 N. 29 N.
73N. ir
9 s. 73 s.
14 N. 52 S.
67 N. 3S.
32N.31S.
5* N. 13 S.
90N.28N.
40 N. 24 S.
6 S. 71 S.
39 S. 70 S.
69 N. 3N.
4S. 70S.
73 H. 7N.
54 S. 68 S.
7jN. SN.
36 N. 22 S.
2 S. 66 S.
36 S. 68 S.
26 S. 68 S.
16 N. 41 S.
37 N. 16 S.
90 N. 66 N.
31 N. 22 S.
6N.51S.
13N.41S.
90 N. 49 N.
59 N. 2N.
71 N. 8N.
90 N. 42 N.
Digitized by
o
ELEMENTS OF OCCULTATIONS, 188a. 4 n
Month
and
Day.
Start Name.
Greenwich
Mean Time
of Con-
junction
inR.A«
of
Cand*.
At Conjunction in RJL
Cand#.
Apparent
Declination
of *.
Dift of
Cand *
Mar. 25
*5
*5
*5
26
27
*7
27
27
27
28
28
28
28
29
*9
29
29
29
29
30
30
30
3 1
3i
3i
3i
Apr. 1
1
2
2
2
X 4 Ononis -
68 Ononis -
15 Geminor.
16 Geminor.
9 Geminor.
B.A.C. 2432
f Geminor.
1 Cancri -
3 Cancri -
5 Cancri -
29 Cancri -
B.AC. 2872
A* Cancri -
A* Cancri -
60 Cancri -
a Cancri -
k Cancri -
B.A.C. 3122
» Leonis -
h Leonis -
14 Sextantis
i6Sextantis
19 Sextantis
34 Sextantis
30 Sextantis
B.A.C. 3726
55 Leonis -
p* Leonis -
p* Leonis -
e Leonis -
B.A.C. 4201
X Virginis -
B.A.C. 4259
B # A.C. 43"
4* Virginis -
49 Virginis
50 Virginis -
58 Virginis -
a Viiginis-
t Virginis*
B.A.G
B.A.C.
B.AC. 4700
B.A.C. 4896
•4S3I
4679
h m s
12 57 II
16 36 29
234421
23 49 28
1740
1 41 29
37 22
18 1541
20 629
20 28 54
10 9 10
I247 I
1738 10
19 34 12
01333
13254
624 10
727 o
17 19 45
19 10 47
135223
15 11 19
1 7 7 39
9 16 10
10 38 53
14 29 15
1622 2
203944
2 9 5
11 5 11
174239
23 35 22
23 39 33
55012
722 6
H -S 53
15 12 37
19 6 o
22 58 17
234336
5 40 22
18 12 30
21 15 35
16 24 39
h m ■
55656*49
6 5 392
62046*34
62057*58
621 59*25
71615-70
7 32 41 -88
75019*72
7 54 3*7*
75449*01
822 4*53
827 15*03
83644*50
84030*29
8493133
852 4*36
9 »«3'79
9 3 24*01
922 10*78
92540*52
o 039*77
o 3 6*47
642*47
036 34* 54
039 7*28
046 12*68
04940*96
05737*00
1 746*02
12419*93
221 55*88
2 33 12*38
2 33 20*46
245 17*33
248 16-O3
3 146*03
3 3 37'7 g
3 11 19*27
319 163
32032*20
32827*33
358 7-06
4 426-89
445 i*99
o / *
N.20 8 17*4
194849*5
205133*5
2033 50*1
2017 1*2
N.i8 2943'8
175021*1
10 6 5-1
173739-6
1646 35*2
N.i4 35 49*o
13 3926-0
13 5 57*4
12 32 16-5
12 418-6
N.12 18 34'4
11 816*5
12 223*5
9 33 548
10 13 50*6
N. 6 1052*7
64437*1
51131*4
4 11 378
3 610*7
1 3852*1
1 21 377
03742*
034 o-
221 28-7
8 139*9
721 4-7
72314*5
042 32
85410*7
S.io 649*3
94215*4
955 43*7
1032 58*7
12 5529
S.12 3647*1
142427*6
15 44 53*3
17 18 0-7
N<
5 9
0531
S. 18 58
S. 133
N.13 39
N. 247
S.12 5
N40 13
S.6427
S.16 3
N.io 28
N.45 27
N.38 26
N.55 36
N.43 1
N.17 2
N43 35
S.20 7
N.35 33
S.22 13
N.3347
S. 13 31
N.59 30
S.5I 2
& 22
N4538
N.42 35
N.40 O
S.I5 57
N.62 12
N.72 25
S.294I
S.2815
N.46 58
S. 16 29
S. 12 59
S.46 53
S.71 27
S.71 24
N.14 20
N. 811
S. 13 22
N.41 33
S. 10 14
90 N. 38 N.
90 N. 54 N.
18N.41S.
36N.22S.
52 N. 8 8.
40N.23S.
25N.40S.
90 N. 13 N.
39 S. 72 S.
21 N. 46 S.
49 N. 20 S.
90 N. 16 N.
90N. 7N.
90 N. 27 N.
90 N. 12 N.
56N.16&
90 N. 12 N.
17N.55S.
85 N. IN.
15N.59S.
80 N. 2S.
24N.51 S.
90 N. 29 N.
16 S. 86 S.
37N.38S.
90 N. 10 N.
90 N. 7N.
90N. jH.
21 N. 55 S.
88N.31N.
82N.54N.
6N.73S.
8 N. 71 S.
80N.11N.
19 N. 55 S.
22N.51 S.
14 S. 90S.
55 S. 90 S.
55 S. 90 S.
48 N. 23 S.
41 N. 29 S.
18 N. 52 8.
72 N. 5N.
17N.48S.
Digitized by
Google
[i% ELEMENTS OF OGCULTATIONS, 1882.
Greenwich
Mean Time
At Conjunction in R.A.
Month
.
of Con-
T^mifj?
and
Start Name;
1
junction
Dffiof
of
Day.
i
inRA.
of
^A. of
Apparent
Declination
Apparent
Ilec. of
Latitude,
([and #.
Cand*.
of #.
Cand *.
h m a
h m s
1
Apr. 6
i" Librae - -
*
2 20 3
15 639-05
S. 19 12 17*4
N4025
S.6759
71 N. 4N.
6
28 Libras- -
547
151415-43
•743 54*4
19 16 ii*8
1854514
53 S. 90 S.
6
B.A.C5109
6
n 053
134928
152553-03
S. 3 53
20N.41 s.
6
41 Librae - -
6
15 32 10*31
S.3915
15 S. 90 s.
IN.63S.
6
k Librae- -
5
15 1022
15351203
191750-5
S. 22 43
6
X Libra- -
6
20 11 37
154632-15
S. 19 48 52 -7
S.14 4
9 N. 52 S.
6
B.A.C.5281
6
22 1333
15 51 9-01
2038 20*3
N.27 5
51 N. 10 S.
7
jS" Scorpii -
z
1 30 19
1 3028
155837-58
1928 585
S.54 45
35 S. 90 S. j
7
jS f Scorpii -
5i
15 58 37'94
192845*5
S.5458
35 S. 90 S. !
7
• f Scorpii -
4
2 5 15
15 59 57*43
202058-6
S. 450
16 N. 42 S. >
7
•" Scorpii -
*
2 20 27
16 032-22
S.2033 o*6
N. 618
27 N. 31 S. 1
7
B.A.C. 5395
5 t 7
9362I
16 647-45
21 5565
194540*6
N.30
S.6346
53N. 7&1
7
if; Ophiuchi
5
16 17 14-82
49 S. 90 s.
7
» Ophiuchi
4
13 2 8
1625 11*52
164629*83
21 1247*8
N.1443
33N.22 s.
7
B.A.C. 5663
22 946
2013 8*2
S.61 13
47 S. 90 S.
8
B.A.C. 5758
6
3 33 50
1659 12*09
S.2I 2355*8
N. 440
21 N. 32 S.
6 8. 61 S.
8
( Ophiuchi
5
9485I
171358-70
2059 4-5
S.21 24
8
B.A.C. 5866
6
II 22 33
171740-92
21 1946*3
S. 015
15N.38S.
8
B.A.C. 5954
6
17 163O
173142-32
21 5022*3
N.3451
57 N. 2S.
8
58 Ophiuchi
5
19 I448
173624*16
21 3725-1
N.2423
43 N. 13 S.
9
B.A.C.6081
6
2 12 20
3I748
1753 1-22
S.20 1947*5
S.40 32
20 S. 90 S.
9
B.A.C. 6098
6
17 55 37-33
18 644-76
2044 10*1
S.1337
6N.52S.
9
p Sagittarii
J
8 840
21 514*5
N.20 1
40 N. 18 S.
68 N. 27 N.
9
14 Sagittarii
18 7I3-I7
18 8 12-88
214431*4
N.59 54
9
15 Sagittarii
5
8 33 37
204539-5
N. 218
22 N. 35 S.
9
16 Sagittarii
6
83413
18 814-33
18 1821-56
S.20 25 15*4
2036 8*2
S.18 5
N 6 5 6
3N.57S.
9
21 Sagittarii
4
124752
27 N. 30 S.
9
B.A.C. 6347
1827 1
183153-6*
184242*06
21 855*5
N.62 8
69 N. 30 N.
9
29 Sagittarii
B.A.C. 6536
** 57 55
202721*1
I928 19*3
N41 20
70 N. 4N.
10
6*
64647
19 122*91
N.24 10
49 N. 14 S.
10
d Sagittarii
5
10 42 41
191045-83
S.19 9339
N.29 16
5S S-, 9 £-
10
p* Sagittarii
4
122540
12 29 16
15 651
191451-70
18 358*5
183124*8
S.25 19
2 N. 65 S.
IQ
p* Sagittarii
9
I9I4 5993
N. 2 30
28 N. 35 S.
IO
B.A.C. 6658
1921 15-25
183539*2
N.24 14
50 N. 14 S.
10
c" Sagittarii
6
20 28 20
19 33 59*44
16 33 376
S.5938
33 S. 90 s.
10
6* Sagittarii
5
21 14
34618
I9 35 47-87
8.162349*6
1548 6-1
S.63 44
37 S. 90 s.
II
g Sagittarii
B.A.C. 6992
5i
1951 17-17
S.47 59
17 S. 90 s.
II
6*
13 2844
20 14 10-30
15 911-9
S. 2 5
28 N. 39 S.
29 N. 38 S.
II
P Capricor.
i
13 3444
20 14 24-40
15 9 XI
14 726*6
S. 1 19
II
B.A.C. 7087
19 13 23
202738*93
S. 913
22 N. 46 S.
12
B.A.C. 7221
6 i
21854
204413-24
204639-58
S.I2 5844*9
S. 613
S.5258
26 N. 43 S.
12
B.A.C. 7242
3 21 41
6 1646
12 I 2*7
18 S. 90 s.
12
8 Aquarii -
6
20 53 27-13
13 302VO
II 5048*1
N.67 25
76N.32N.
12
v Aquarii -
44
1028 14
21 3 11-23
N.1337
46N.25 S. |
12 17 Aquarii -
6
16 1628
21 1037*82 S. 949 10*9
S.42 20
5 S. 90 S. j
o
ELEMENTS OF OCCULTATIONS, 1882. 41
Greenwich
Mean Time
At Conjunction in RJL
Month
<£
of Con-
junction
Limits
and
Star's Name.
4*
1
Dift of
of
Day.
1
inRA.
of
B.A,of
Apparent
Declination
Apparent
Dec. of
Latitude.
(Cand *.
Cand*.
of*.
Cand*.
h m s
h m s
1 *
C
1 H
Apr. 1 2
19 Aquarii -
( Aquarii -
54
17 15 17
211853-77
S. 10 14 54*5
s. 517
30 N. 42 S.
12
44
22 42 35
21 31 29*25
82251*7
S.53 5
15 S. 90 S.
c x Capricor.
4 «?
I 51 II
21 3843*68
93718*1
N.59 15
80 N. 19 N.
& Capricor.
2 24 II
21395965
9 49 4-*
N.7743
80 N. 50 N.
30 Aquarii -
54
95026
2157 5*10
7 5*5*5
N. 611
42 N. 32 S.
B.A.C. 7744
6
13 59H
22 635*78
S. 5 18 2*8
S.48 37
9 S. 90 S.
44 Aquarii -
*
15 53 33
185723
22 1057*78
22 1758*86
55826*6
N.1611
52 N. 23 S.
60 N. 16 S.
5 1 Aquarii •
525550
N.23 13
N.65 28
k Aquarii -
5
5S55
223139-54
4 5o 4'5
85N.26N.
3 Pisoium -
6
IO57 ID
225435*50
02645*7
S.6448
25 S. 90 S.
B.A.C. 8152
6*
205653
23 1728*93
S. 02T 22*9
N.63 48
go N. 24 N.
63 N. 14 S.
k Piscium -
i
22 20 10
232053*71
N. 03639*0
N.2544
9 Piscium -
22 34 28
23 21 12*71
02833-3
N.35 41
77 ». 5S.
15 Piscium -
6 i
2 958
23 2927*42
03044-7
12655*4
N.72 38
90N.37N.
16 Piscium -
*34 3
23 3022*75
N.30 50
70 N. 10 S.
*5
19 Piscium -
6
6545I
9 58 37
234022*37
N. 24959-6
19 19 16*7
N. 549
43 N. 32 S.
J 9
i3Tauri -
9
3 35 3J-47
33736-88
N.19 57
59 %'J%
x 9
B.A.C. 1 143
10 50 22
2033 9*1
S.4938
13 S. 69 s.
*9
Jupiter
-
I55849
350 3*77
19 27 205
1952 6*7
N.39 39
90 N. 15 N.
62 N. iS.
19
B.A.C. 1242
6
17 4»51
3 5415*39
N.22 13
19
*• Tauri - -
6
21 247
4 * 18*43
N.19 1743*5
N.6920
90 N. 55 N.
00 N.
20
•• Tauri - -
5*
V,hl
4 1021*67
2017 ii*9
N.21 10
20
53 Tauri - -
50 Tauri - -
6
4 12 20*69
4 12 38-64
2051 20*1
S.10 12
27 N. 30 S.
12 S. 60S.
40 S. 68 S.
20
6
11958
21 29 14*3
S.47 55
20
*• Tauri - -
6J
3 43 37
41824*33
215544*0
S.6729
20
B.A.C. 1373
6
449 9
421 1*82
N.21 21 24*0
S.30 15
7 N. 52 S.
28 N. 25 S.
90 N. 48 N.
20
1 Tauri - -
5
192934
456 3*70
2125 8*4
S. 941
20
I Tauri - -
*
21 3047
5 050*61
201537*4
N.61 2
20
1 05 Tauri - -
213154
5 053*25
21 32 50*4
S. 16 10
21 N. 33 S.
4 & 68 S.
21
n Tauri - -
6
2 20 4
5 12 12*41
21 5821*9
S.4052
21
ii4Tauri - -
6
5 54 3
8 3026
52035*93
52638*84
N.21 50 1*5
S.3344
3N.55S.
21
B.A.C. 1733
6J
2023 11*4
N.51 15
90 N. 34 N.
21
5 Tauri - -
21
10 1245
53036*84
21 4 V7
204928*2
N. 843
N.17 6
46 N. 8S.
21
B.A.C. 1835
14 51 2
54120*94
56 N. iS.
21
X 1 Ononis -
44
1729 13
54724*90
2015 4*1
N4651
90N.28N.
21
y£ Orionis -
5
213853
55656*04
* s y ii
62045*86
N.20 8 17*1
N.4443
90 N. 25 N.
22
68 Orionis -
6
1 13 23
194849*2
N.54 59
90 N. 37 N.
22
1 5 Geminor.
6
8 12 13
205133*4
S. 29 39
7 N. 54 S.
22
16 Geminor.
6
81715
62057*10
621 58*80
2033 50*0
S. 12 13
25 N. 34 S.
22
y Geminor.
44
84452
2017 1*0
N. 2 59
40 N. 18 S.
2 3
B.A.C. 2432
*
94022
7 16 15*32
N.18 2944*2
175021*6
S. 7 8
30 N. 32 S.
23
f Geminor.
172854
73241*42
S.22 58
14 N. 52 S.
H
1 Cancri -
6
205
75010*27
75448-53
16 6 58
N.29 23
73 N. iN,
24
S Cancri -
6
41138
164635*9
S.2652
10 N. 58 S.
24
29 Cancri -
6 1743 3
822 4*08
N.i4 35 49*9 S. 7 37N.31S.
o
i 4 ELEMENTS OF OCCULTATIONS, 1882.
Greenwich
Mean Time
At Conjunction in RJL
Month
^
of Con-
C £ »
TJ—Mfg
and
MHm
junction
Diftof
1
of
Dty.
i
inftA.
of
RJLof
Apparent
Declination
fe?
Latitude.
*
Cand*.
Cand *.
of*.
Cand*.
b m ■■ h m ■
1 *
C
t it
Apr. 24
B.A.C. 2872
6
201928 82714*59
N.13 3926*9
N.34S6
N.28 1
84 N. 4K.
*S
A" Caneri -
6
i 8 13
8 3644*06
13 5 58-3
71 N. 4&1
*5
A' Caneri -
6
3 322
84029*85
1232 17*5
12 4I9'6
121835*5
N4515
90 N. 15 N.
*S
60 Caneri -
6
74050
85941
84930*92
N.32 47
79 N. !
*s
a Caneri -
4
852 395
N. 651
44N.*5S.
*5
« Caneri •
*
13 49 19
9 1*3*39
9 323*61
N.11 817-5
N.33 33
80N. 1
*i
B.A.C. 3122
* Leonia -
14 51 50
12 224*3
S.30 7
7N.68SJ
68 N. oS.
«6
042 8
922 10*39
9 33 559
N.25 ss
26
A LeoniB -
6
23250
92540-14
10 13 51-7
8.3147
5 N. 7a S. !
26
B.A.C. 3336
6
10 823
9 39 58 74
7H53-I
N.7249
90 N. 6a N.
26
B.A.C. 3438
V
20 820
95840-04
N. 5 3416*0
N.72 41
90N.60N.I
66N.11S.'
26
i4Seztanti8
16 Sextan tia
21 12 31
10 039*45
61053*5
64438*0
8.22 8
26
6
22 3125
10 % 6*16
10 642*16
15 N. 60S.]
27
i9SextantL8
6
02742
16 30 30
5 11 32-2
N.51
90 N. 17 N. 1
27
34 SextantiB
6
103634*29
411 38-6
S.5837
26 S. 86 &|
*7
36Sextantifl
6
17 59 16
1039 7"<>3
N. 3 6 u*4
8. 752
N.38 24
N.35 28
*9N. 4 5S.
*7
B.A.C. 3726
55 Leonia -
6
214948
1046 12*44
x 38 52-6
90 N. aN. 1
83 N. aS.|
3
6
234241
104940-73
105736*78
11 745*8*
1 21 38*2
p % Leonifl -
6
4 034
03743*3
N.33 9
79 N. 4S.
28
p* Leonia -
5
930 9
N. 034 1*2
8.22 25
15 N. 62 S.
28
e Leonis -
1
18 26 30
11 24 19*78
111x55-85
S. 221 28*6
N.56 20
88 N. 22 N.
30
BJLC. 4201
1 144
8 1405
N.68 52
82 N. 43 N.
3 N. 78 S.
30
X Virginia -
s
65313
123311*39
721 5*
S.3248
30
B.A.C. 4259
6
65724
13 626
123320*47
723 15-0
S.31 21
4N.75S.
30
B.A.C. 4312
6*
1245 1737
942 40
N4420
80 N. 8N.
30
^ Virginia -
5
*4 37 5*
1248 16*07
S. 8 54 ii«4
S.19
16 N. 588,
30
49 Virginia -
6
21 29 18
13 146*11
10 650*2
8. 14 58
20N.53S.
*, 30
50 Virginia -
6
2225 40
13 33785
942 16- 1
S.48 48
16 S. 90 S.
May 1
58 Virginia -
6
2 1729
683
131119-37
9 55 44'5
S.73 4
61 S. 90 s.
1
a Virginia -
1
13 19 1*76
10 32 595
8.7243
60S. 90S.
1
t Virginia -
6
653 X
132032-33
S.12 5 54*0
12 3648-2
N.13 4
47 N. 24 S.
1
B.A.C. 4531
B.A.C. 4679
6
104752
132827*47
N..713
S.13 16
40 N. 30 S.
2
*
x 11 32
1358 7'3©
142428-8
I8N.5X S.
2
B.A.C. 4700
4 1236
14 4*7-15
154454-8
1718 8*i
N41S3
& 836
71 N. 5N.
2
B.A.C. 4896
6
23 7 10
H45 *'35
18N.46S.
3
** Libras - -
44
82425
IS 5 3334
15 6 39 46
S. 192050*0
N.5411
71 N. 20 N.
3
1' Libras - -
Si
«S4 5
19 12 18-9
N4241
S.6530
71 N. 6N.
3
28 Librae - -
6
12 17 57
15 14 15-86
174355*5
19 16 13-1
48 S. 90 S.
3
B.A.C. 5109
6
1727 7
15255350
S. 1 s
23 N. 38 &
12 S. 86 S.
3
41 Libras - -
6
20 13 7
15 32 10-80
185452*5
S.3617
3
k Libras - •
5
21 32 47
153512-52
S.19 1751-6
8. 19 41
4 N. 59 S.
4
X Libras - -
6
2 2925
42928
154632-69
1948 539
8. 10 44
11 N. 49 S.
4
B.A.C. 5281
6
15 51 956
20 38 21-5
N.30 32
55 N. 7S.
4
f? Scorpii -
2
743 "
155838-13
192859-3
851 8
30 S. 00 S.
4 P 1 Scorpii -
5i_
74321
155838-49
8.192846-4 S.51 22I30S. 90 S.
o
ELEMENTS OF OOCULTATIONS, 1882. 41
Greenwich
Mean Time
At Conjunction in &A.
Month
.
of Con-
junction
Lfanha
and
Start Name.
1
Diftof
of
Day.
1
inlLA.
of
RJLof
Apparent
Declination
Apparent
Dec of
Latitude.
*
Cand *.
(and*.
of*.
Cand*.
h m ■
h m ■
O 1 H
€
May 4
«■ Scorpii •
4
81735
1 5 59 57'9 8
16 032-77
S.20 20 59'6
S. I 12
20 N. 38 S.
4
•• Scorpii -
i
83*33
2033 i*6
S" 95 Z
31N.27S.
4
B.A.C. 5395
11 1342
16 648*02
** 5 57*5
N.3348
58 N. 3S.
4
^ Ophiuchi
5
15 41 48
161715-41
194541-3
S-5944
N.18 55
43 S. 90 S.
38N.18S.
4
« Ophiuchi
5
19 429
1625 W13
21 1248-5
5
B.A.C. 5663
V
4 4"
164630-51
S.2013 8*5
S.5636
41 S. 90S.
5
B.A.C. 5758
9*3 47
1659 12*76
21 23 56-0
N. 931
S.1617
25 N. 28 S.
5
£ Ophiuchi
i
15 33 56
17 630
171359-41
2059 4*4
21 1946*2
55 S.
5
B.A.C. 5866
171741-65
173143-06
N. 456
21 N. 32 S.
5
B.A.C. 5954
6
22 56 19
21 5022*0
N40 16
66 N. 3N.
6
58 Ophiuchi
|
0532I
746 53
MIS?
173624*95
17 53 1-98
8.213724-7
N.29 52
50 N. 8S.
6
B.A.C.6081
6
20 1946*7
S.3449
14 S. 82 S.
6
B.A*C. 6098
6
175538*09
2044 93
8L 75*
11N.45S.
6
1* Sagittarii
t
I3282O
18 645-55
21 5135
N.25 55
N.65 48
47 N. 12 S.
68N.37N.
6
14 Sagittarii
13 40 7
18 7I39S
2I44 30'5
6
15 Sagittarii
I
14 452
18 813*66
S.20 45 38*4
N. 813
28 N. 29 S.
6
16 Sagittarii
14 528
18 815-11
20 25 14*3
S. 12 10
9 N. 50 S.
6
21 Sagittarii
h
18 17 22
18 1822*36
2036 7-0
N.12 58
34 N. 24 S.
69N.41N.
6
B.A.C. 6347
23 5440
18 31 5445
21 854-1
N.68 19
N4738
7
29 Sagittarii
42431
184242*91
2027 J 9*3
70 N. 10 N.
B.A.C. 6536
6*
12 12 27
19 125*74
19 1046-67
S.1928 17-2
N.30 37
57 N. 8S.
64N. 3S.
d Sagittarii
5
l6 8 21
10 931*7
18 356-1
S. 18 46
p s Sagittarii
4
17 51 36
191452*53
1915 0-76
8N.57S.
p* Sagittarii
B.A.C. 6658
Si
>7 55 4
18 31 22-5
N. 9 3
34 N. 28 S.
6
20 32 56
19 21 16-08
183536-8
N.30 49
59 N. 8S.
8
c" Sagittarii
6
•15527
1934 0-30
S.I6 33 34-8
S.5259
24 S. 90 s.
8
«■ Sagittarii
5
241 20
193548-73
162546*7
1548 50
15 9 8-5
S.57 5'
29 S. 90 s.
8
^ Sagittarii
B.A.C. 6992
Si
9I55I
19 51 i8-oo
S.41 16
1 1 S. 90 s.
8
°i
19 323
20 14 11*13
N. 440
35 N. 33 S.
8
p Capricor.
3
19 927
20 1425-23
15 859-1
N. 526
35 N. 32 S.
9
B.A.C. 7087
6
052 3
2027 39*78
S.14 722-9
S. 228
28 N. 40 S.
9
B.A.C. 7221
*
8 3 3*
2044 14-06
204040*40
12 5841-1
N. 029
S.46 16
32 N. 37 S.
9
B.A.C. 7242
9 717
12 059*0
1 1 S. 90 S.
9
8 Aquarii -
6
12 5 12
205327-94
13 30 19*2
N.74 5
76 N. 45 N.
9
y Aquarii -
4i
l6 21 2
21 312*03
11 5044-2
N.20 15
54 N. 18 S.
9
14 Aquarii -
6
I92O 19
21 9 59*99
21 16 38*60
s. 94215-4
S.7524
50 S. 90 s.
9
17 Aquarii -
6
22 15 56
9 49 7*o
S.35 48
1 N. 79 S.
9
19 Aquarii -
£ Aquarii -
Si
23I556
211854*55
10 1450-5
N. 1 14
35 N. 36 S.
10
4i
4 50 13
21 31 30-05
* 82247*5
S.46 40
9 S. 90 S.
10
c 1 Capricor.
4i
8 3 3
213844-45
93714*0
N.65 36
80N.29N.
10
30 Aquarii -
B.A.C. 7744
9
16 13 49
2157 5-85
S. 7 521-5
51758-8
5 58 225
N.12 19
48 N. 26 S.
10
2029
22 26 19
22 636*51
S.4237
3 S. 90 S.
10
44 Aquarii -
Si
22 1058-51
N.22 8
59 N. 17 S.
11
51 Aquarii -
6
•35 6
22 1759-61
52550*7
N.29 4
68 N. 11 S.
11
k Aquarii -
5
7 43 33
22 31 40-25
S. 450 0-4
N.71 6
85N.36N,
o
n6 ELEMENTS OF OCCULTATIONS,
1 8&z.
Greenwich
Mean Tiwu
At Conjunction in R.A.
Month
i
of Con-
junction
Tlmlta
and
8tar*sName,
Diftof
of
Day.
I
in R A
of
Apparent
BJLof
Apparent
Declination
Apparent
Dee. of
Latitude.
Cand *.
Cand ♦.
of*.
•
Cand*.
h m ■
h m ■
O t
C
May ii
3 Piscium -
B.A.C. 8152
6
18 2 15
41946
225436-17
S. 02642-0
S. 59 35
N.68 33
20 S. 90 s.
12
6i
231729-59
S. 021 19*0
90 N. 32 N.
12
k Piscium -
V
5 5I4S
232054-37
N. 03642*7
N.30 25
70 N. 10 S.
86N.
12
9 Pisciam -
6017
23 21 13"36
232928*04
028 37-1
03948-3
N.4021
12
15 Pisciam -
6*
94217
N.77 8
90N.48N.
12
j 6 Piscium -
6
10 7 6
233023-37
N. 12658-9
N.3S 19
77 N. $&
47 N. 28 S.
12
19 Piscium -
6
14 35 45
234022-97
250 3-0
N.io 4
12
22 Piscium -
6
17 5 2
2345 56-66
2 1635-1
N-75 3*
9oN.45N %
13
d Pisciam -
*
54920
1432-68
732 10-3
S.7832
53 S. 82 &
18N.56S.
13
45 Piscium -
8 438
1938*01
7 *H'«
8.2043
13
51 Piscium -
6
11 2 13
15 1026
16 A 24
193644
O II 58
026 19-57
N. 61822-4
5*1
90N.22N.
H
% Pisciam -
6
13051-55
1 32 57*08
11 32 18*0
90 N. 39 N.
11 S. 76 S.
14
i04Piscium -
6*
134117-5
S.50 26
18
5 Tauri - -
l!
53036-68
21 4 3-2
N. 615
44 N. 10 S.
• 19
B.A.C. 1835
54120-76
204927*7
N.1431
53N- 4S.
19
X 1 Ononis -
V
24819
5 47»4'7i
N.2015 3-8
N4414
90 N. 25 N.
J 9
X* Ononis -
643 34
55629-59
1941 21-7
N.6923
90 N. 61 N.
»9
%* Ononis -
1
6 54 55
55655*83
20 8 16-7
N42
90 N. 23 N. ,
'9
68 Ononis -
IO 26 43
17 19 56
6 5 3*4
1948489
N.52 12
90 N. 33 N.
4N.58S.
19
15 Geminor.
6
62045*62
2051 331
S.3233
19
i6Geminor.
6
17*4 54
62056-86
N.20 33 49-7
2017 o-8
S.15 7
22 N. 36 &
*9
y Geminor.
«
1752 8
621 58*55
N. 4
37 N. 21 S.
20
B.A.C. 2432
182557
2 738
7 16 15*00
182944-5
175622*0
S.i 1 21
26N.37S.
11N.56S.
21
/ Geminor.
6
7 32 41-07
S.2615
21
1 Cancri -
6
10 31 38
75018-93
16 6 6-4
N.26 4
68 N. 3S.
21
5 Cancri -
6
1241 23
75448*18
822 3*71
N.16 46*36-5
S.30 11
7N.62S.
22
29 Cancri -
6
2 220
143550-8
S. 327
34N.34S.
22
B.A.C. 2872
6
4 36 55
827 14-22
133927-8
N.31 36
77 N.
22
A 1 Cancri -
6
922 25
83643*70
13 5 59'3
N.24 42
66N. 7S.
22
A* Cancri -
6
11 1620
84029-49
1232 18*5
N4I56
90 N. 11 N.
22
60 Cancri -
6
155056
84930*55
N.12 420-7
N.29 30
73N. 3S.
22
a Cancri -
4
17 9 1
21 56
852 3-58
12 18 36-5
N. 333
41N.29&
22
k Cancri -
5
9 123-03
11 8i8-6
N.30 17
74N. 3S.
22
B.A.C. 3122
V
225758
9 3*3*24
12 225*5
& ss* j
4 N. 72 &.
23
» Leonis -
8 43 45
922 10-03
933 57-1
N.2244
63 N. 12 &
23
h Leonis -
6
10 35 44
18 643
92530-78
9 39 58-39
95839*68
N.io 1353*0
s.3457
N.6943
2 N. 77 &
*3
B.A.C. 3336
6
7H54H
90 N. 50 N.
*4
B.A.C. 3438
1
4 4i9
5 819
5 34174
N.69 42
90 N. 49 N.
24
14 Sextan tis
10 039*09
6 1055*0
N.22 8
62 N. 14 S.
24
16 Sextantis
6
627 1
10 3 5-80
644 395
S.25 5
12 N. 64 S.
24
19 Sextantis
6
823 2
10 641*81
N. 5 11 33-6
N48 4
90 N. 13N.
30 S. 8b S.
25
34 Sextantis
36 Sextantis
B.A.C. 3726
6
031 13
1036 33-96
1039 6-70
4 11 40-1
S.61 19
*5
6
154 i
3 6 12-8
S. 10 32
27N.48 S.
25
6
5 44 5;
1046 12-12
13854-0
N.35 47
84 N. iS.
78 N. 4S.
25 55 .Leon is -
6
73756 104940-41
N. 1 21 39-5
N.32 53
o
ELEMENTS OF OCCULTATIONS, 1882. 41
Month
and
Day.
May 25
«S
26
26
27
27
27
27
3
28
28
28
28
29
29
30
30
30
30
3
3
3
3
3
3
3
3
3
3
3
June
Start Name.
p* Leonis -
p s Leonis -
e Leonis -
B. A.C. 4006
B.A.C. 4201
X Virginia -
B.A.C.4259
B.A.C. 4312
ty Virginis-
49 Virginis -
50 Virginia -
a Virginis -
t Virginis -
B.A.C.4531
B.A.C. 4679
B.A.C. 4700
B.A.C. 4896
1 1 Libras - -
i* Libras - -
28 Libras - -
B.A.C. 5109
41 Librae - -
k Libras - -
\ Librae - -
B.A.C. 5281
0* Scorpii -
j9* Scorpii -
»* Scorpii -
»■ Scorpii -
B.A.C. S395
\f/ Ophiuchi
& Ophiuchi
B.A.C. 5663
B.A.C. 5758
£ Ophiuchi
B.A.C. 5866
B.A.C. 5954
58 Ophiuchi
B.A.C.6081
B.A.C. 6098
fA Sagittarii
14 Sagittarii
15 Sagittarii
16 Sagittarii
Greenwich
Mean Time
of Con-
junction
inB.A.
of
Cand*
h m s
zi 5623
172653
2 25 10
1335 O
9 9*5
15 2 28
15 639
21 1722
2249 10
54213
63847
1422 31
15 736
19 255
927 o
122752
71825
16 31 53
17 1 18
2023 27
1 2940
413 57
5 32 44
1025 52
12 2426
15 35 37
15 35 47
16 9 32
1624 18
19 313
23 2720
24652
11 3729
16 51 18
22 54 23
025 8
6 756
8 233
144727
15 50 47
2021 34
20 33 6
2057 x 9
20 57 55
At Conjunction in B.A.
Apparent
RA.of
Cand *.
Apparent
Declination
of*.
h m ■
57 36-48
1 745*54
1 24 19*50
i45 3'*7
2 21 55*67
2 33 12*23
2 33 20*31
24517-23
24815-94
3 146*00
3 3 37'
319 1
3 20 32*
3 2827*
358 r
4 427*
445 **
5 533*
5 639'
51416-
5*5 53'
5 32 ir
5 35 12-
54632'
5 5i 9'
55838
55838'
55958*
6 o 33'
6 648'
6 17 15'
625 12'
646 30*
65913'
713 59'
71742'
7 3J43'
73625"
753 »'
755 38*
8 646'
8 714*
8 8 14'
8 8 15-
o t *
N. 03744-6
N. 034 2-5
22127*4
44059-1
8 1399
S.
721 4'
72314-
942 3
8 54 io-
10 649-
S. 9
10
12
12
H
S.15
17
19
19
i7
S.19
18
19
19
20
S.19
19
20
20
21
S.19
21
20
21
20
S.21
21
21
20
20
S.21
21
20
20
4215-7
3259-2
5539
3648-2
2428*9
44 55-1
18 8-4
2050*6
12 19-
43 55*
16 13-6
54 52*9
1752*0
4854-2
38 22*0
28 59*6
2846*6
2059*9
33 2-0
5 57'9
4541*4
1248-7
13 8-4
*3 55-9
59 4*1
1945-8
5021-5
3724-2
1945-8
44 8'4
512-5
4429-5
45 37'3
25 13-2
DhTof
Apparent
Dec. of
Cand #.
N.30 39
S. 24 50
N.54 5
N.73 40
N.67 10
S.342
S.325
N.42 52
S.2027
S.1617
5.50 7
S.73 54
N.i 1 54
N. 6 7
S.14 9
N.41 2
S. 9 12
N.53 40
N.42 11
S.65 58
S. 130
S. 36 42
S.20 5
S.n 6
N.30 11
S.5128
5.51 42
S. 1 31
N. 938
N.33 30
S.60 2
N.1838
S.5652
N. 916
S. 16 32
N. 441
N.40 o
N.29 36
S.35 *
S. 8 9
N.2S 37
N.65 30
N. 754
S.1228
Limits
of
Latitude.
o
6S.
7 4°N. _
13N.66S.
88N.19N.
85N.60N.
82 N. 40 N.
1N.81S.
3 N. 78 S.
80N. 6N.
15 N. 60 S.
18N.55S.
17 S. 90S.
68 S. 90 S.
45N.25S.
38N.31 S.
17N.52S.
75 N. 4N.
I8N.47S.
71 N. 19 N.
71 N. 6N.
48 S. 90 S.
22 N. 39 S.
12 S. 86 S.
4 N. 59 S.
1 1 N. 49 S.
55 N. 7 S.
30 S. 90 S.
30 S. 90 s.
19 N. 39 S.
30 N. 27 S.
57 N. 4S.
43 S. 90 S.
38 N. 19 S.
40 S. 90 S.
25 N. 28 S.
o 55 S.
20 N. 32 S.
65 N. 3N.
49 N. 8S.
14 S. 82 S.
11N.45S.
46N.12S.
68 N. 35 N.
27 N.29 S.
9 N. 50 S.
Digitized by
Google
8 ELEMENTS OF OCCULTATIONS, 1882.
Greenwich
Mean Time
At Conjunction in RJL
Afontb
4
of Con-
junction
TimitJi
and
Star's Name.
Diff. of
Of
Day.
*|
inB.A.
of
RA.of
Apparent
Declination
Apparent
Dec. of
Latitude.
*
([and #.
Cand#.
of*.
(and #.
h m a
h m «
/
1 n
Tunc 3
B.A.C. 6347
6 i
6 3420
10 58 20
18 31 55* 16
S.2I 852*6
N.67 59
69N.39N.
3
29 Sagittarii
184243*61
2027 17-7
N4715
70 N. 10 N.
3
B.A.C. 6536
6*
18 36 16
19 I24-47
I928 I5'I
N.30 12
56 N. 8S.
3
d Sagittarii
5
22 27 13
191047-41
19 9295
N.35 21
63 N. 3S.
4
f Sagittarii
4
8 19
191453-30
18 353-6
S. 19 14
8 N. 57 S.
4
p* Sagittarii
5i
11 42
19 15 1-53
19 21 16-86
S.l8 31 20-0
N. 835
33 N. 29 S.
57 N. 8S.
4
B.A.C. 6658
6
2462I
183534-2
N.302I
4
e J Sagittarii
6
8 2 24
1934 i*o6
163331*9
S.533O
24 S. 90 s.
4
e* Sagittarii
5
84723
19 35 49-49
162343*9
S-57 37
29 S. 90 s.
4
g Sagittarii
5*
IS 14 27
19 51 18*79
'547 59*9
S.415I
11 S. 90S.
5
B.A.C. 6992
«i
5147
20 14 11*96
S.15 9 4*9
N. 4
34N.33S.
5
/9 Capricor.
3
5744
20 14 26*06
15 8 55-5
N. 445
35N.33S.
5
B.A.C. 7087
6
635 2
202740-59
2044 14*88
14 719-1
S. 3 12
28 N. 40 S.
5
B.A.C.7221
6*
13 40 31
12 58 37-1
S. 19
31N.37S.
5
B.A.C. 7242
6
1443 28
204641*21
12 0549
S.47 5
12 S. 90 S.
5
8 Aquarii -
6
I7 39H
2053 28-77
21 3 12*85
S.13 3015*0
N.73 14
76N.43N.;
5
y Aquarii -
44
21 52 ID
115039-9
N.19 21
53 N. 19 S. 1
6
14 Aquarii -
6
O4948
21 10 0*84
94210-7
S. 76 20
52 S. 90 S.
6
1 7 Aquarii -
6
3 43 54
21 16 39*46
949 **3
S.3645
80S.
6
19 Aquarii -
5i
4 43*3
21 l8 55*41
zo 1445*8
N. 16
34N.37S.
6
f Aquarii -
44
10 15 19
21 31 30*88
S. 82242-8
S.47 41
10 S. 90 &
6
c x Capricor.
44
1327 7
213845*29
9 37 9'*
7 516*4
N.64 33
80N.27N.
6
30 Aquarii -
B.A.C. 7744
2
21 36 15
21 57 6*68
N.n 12
47 N. 27 S.
7
1 51 11
22 637*37
51753*6
S.4346
4 S. 90 S.
7
44 Aquarii -
54
34832
22 10 59-37
5 58i7-3
N.20 58
58 N. 18 S.
7
51 Aquarii -
6
65730
22 18 0*44
22 31 41*08
S. S*5 45'6
N.2751
66 N. 12 S.
7
k Aquarii -
5
13 7 2
449 55-3
N.6951
85 N. 34 N.i
I
3 Piscium -
6
23 2929
225436-99
026 36*9
S.60 53
22 S. 90 s.
B.A.C. 8152
64
9 53 5
11 26 9
231730*39
S. 021 13-9
N.67 11
90 N. 30 N.
8
« Piscium -
44
232055-17
N. 03647*8
N.29 3
68N.11S.
8
9 Piscium -
6
"3447
23 21 14*16
N. 02842-2
N.38 59
84N. iS.
8
15 Piscium -
1
15 19 39
23 29 28-84
039 53-4
N.75 45
90N.46N.,
8
16 Piscium -
15 44 47
23 3024*16
127 3-0
250 7*8
N.33 56
75 N. 6 8.
8
19 Piscium -
6
20 17 17
234023*76
N. 841
45 N. 29 S.
8
22 Piscium -
6
22 48 52
*3 45 57*45
2 1640-0
N.74 -9
90 N. 43 N.
9
45 Piscium -
6
14 432
01938*77
N. 7 228-5
61826-8
S.22 5
17 N.58 S.
9
51 Piscium -
6
17 540
02620*32
N.58 28
90 N. 2 1 N.
10
x Piscium -
6
2152 8
1 3052-20
11 3221-3
N.67 59
90N.38N.
10
i04Piscium-
*
224723
13257*75
2 638*53
1341 20*6
S.51 34
13 S. 76 S.
68 N. 4 S.
11
19 Arietis -
13 30 15
144338-6
N.27 40
11
27 Arietis -
6
21 1027
22423*23
N.i7io55*4
S.5332
16 S. 73 s.
12
40 Arietis -
6
44242
24156*73
174731*6
165825*3
S. 30 52
8N.60S.
12
w Arietis -
5 i
5 *53
24243-91
N.20 45
59 N. 8 S.1
12
P 8 Arietis •
7 48 49
2 49 12*24
1751 13'*
S.1153
26 N.38 s.j
12 f a Arietis -
6845
24948*03 N.1733 9*0
N. 8
45 N. 19 S.j
o
ELEMENTS OF OCCULTATIONS, 1882. 41
Greenwich
Mean Time
At Conjunction in R.A.
-
Month
.
of Con-
junction
Limits
and
Star's Name.
1
Diffof
of
Daj.
1
inEA.
of
B.A. of
Apparent
Declination -
Apparent
Dec of
Latitude.
*
Cand #.
(and*.
of*.
Cand #.
h m s
h m 1
/ *
C
June 1 2
S3 Arietis -
6
124527
3 048*48
N.1725 26*6
N47 53
90 N. 20 N
12
54ArietiS -
6*
13 7 53
3 141-25
18 2029*4
S. 442
32 N. 30 S.
12
8 Arietis -
44
142957
3 4 54*39
19 1647*2
S.52 8
15 S. 71 S.
*3
1 3 Tauri - -
*
3^7 34
33532-03
19 19 17*6
N.1848
57 N. 6S
13
B.A.C. 1 143
4 20 28
3 37 37*44
2033 9*6
S.5048
15 S. 69 S.
17
f Geminor.
6
IO3347
73240-99
75018-81
^175622*3
S.23 31
I3N.53S.
17
1 Cancri -
6
18 54 30
16 6 6*9
N.29 4
73 N.
;:
5 Cancri -
6
21 3 20
IO Id 20
75448-05
822 3-54
1646 36*9
S.27 7
10N.58S.
29 Cancri -
6
H35 5*'4
N. 1
37N.30S.
18
B.AJC. 2872
6
12 51 41
8 27 14*04
13 39286
N.35 9
84N. 4N
18
A" Cancri -
6
'7 34 59
83643-51
N.13 6 0-2
N.28 23
71 N. 4S.
18
A" Cancri -
6
1928
84029*30
1232 19-5
N.45 41
90 N. 15 N
80 N. iN
19
60 Cancri -
6
028
84930-34
12 421*7
N.33 23
19
a Cancri -
4
1 17 59
852 3-37
9 I22"8o
12 l8 37-5
N. 729
45 N. 25 S.
82 N. iN
19
k Cancri -
5
6 2 46
11 8 19*8
N.3421
l 9
B.A.C.3122
*
7 416
9 323*01
N.12 226*6
S.29 17
8 N. 67 S.
19
* Leonis -
164558
922 9-79
93358-4
N.27 5
69 N. 7S.
19
A Leonis -
6
18 35 14
92539*53
10 13 54-2
S.30 33
7 N. 70 S.
20
14 Sextantis
6
13 4 1
10 038-83
6 1056*5
N.26 59
69 N. 9S.
20
10 Sextantis
6
14 22 26
10 3 5*53
64440*9
S.20 13
17 N. 59 S,
20
19 Sextantis
6
16 18 3
10 641-54
N. 5ii35-i
N.52 59
90 N. 20 N
21
34 Sextantis
6
82421
103633-67
1039 6-42
4 1141*8
S.56 7
22 S. 86 S.
21
36 Sextantis
6
94710
1338 4
3 614-5
S. 519
32 N. 42 S.
21
B.A.C. 3726
6
1040 11-84
138 557
N41 3
90 N. 5N
21
55 Leonis •
6
15 31 13
104940-13
12141*2
N.3811
90 N. iN
21
p* Leonis -
6
1950 3
105736-19
N. 03746-3
N.36
84N. iS.
22
p l Leonis -
5
1 21 21
n 745-2+
N. 034 4-3
S.1926
18N.59S.
22
e Leonis -
5
10 21 44
11 24 19*21
S. 2 21 25*7
N.59 34
88 N. 27 »
23
B.A.C. 4201
6
I7;i9 53
12 21 55*41
8 138*5
N.72 38
82 N. 56 N
23
X Virginis -
5
23 1648
12 33 11-98
721 3-1
S.2859
7 N. 72 S.
*3
B.A.C. 4259
6
23 21 3
12 3320*06
S. 723 12-9
S.27 32
8 N. 69 &
24
28 Virginia -
6
04157
123554-20
1245 16-98
651 20*9
S.73 7
60 S. 90 s,
*4
B.A.C.4312
6*
5 35 54
942 2*3
8 54 95
N48 12
80 N. 12 N
24
4> Virginis -
5
7 U7
1248 15-70
S.15 8
20N.53S
24
49 Virginis •
6
14 646
13 14578
10 648*6
S.11 6
23 N. 49 S.
M
50 Virginis -
6
15 4 1
18 59 25
'3 3 3753
13 11 19*08
S. 942 14-4
S.4456
12 S. 90 S,
24
58 Virginis -
6
95542-8
S.69 12
S.6852
48 S. 90 &
24
a Virginia -
1
22 53 31
13 19 1-49
1032 58*0
48 S. 90 S,
H
t Virginis -
6
2339 8
13 2032-07
12 552*8
N.16 55
51 N. 20 S,
25
B.A.C. 4531
6
3 37M
132827-23
12 3647-1
N.i 1 3
44 N. 26 S,
*5
B.A.C. 4679
'}
18 12 12
1358 7-17
S. 14 24 2'8 * 2
S. 936
21 N. 47 S,
*S
B.A.C. 4700
21 15 13
14 427-05
15 44 54*5
N4529
74 N. 9N
26
B.A.C. 4896
6
16 17 52
1445 2-43
1718 8*i
S. 526
22N.43S
27
1 1 Librae- •
4i
1 36 1
15 5 33*50
1920 50*5
N.57 3
71 N. 24 fl
27
«■ Librae - -
Si
2 539
15 639*63 S. 19 12 19-3 N45 33
71 N. 9 IS
Digitized by
2 E 2
O
2o ELEMENTS OF OCCULTAT10NS, 1882.
Greenwich
Mean Time
At Conjunction in R.A.
1
Month
i
of Con-
junction
Limits
and
Star's Name.
Diff. of
of
Day.
1
inR.A.
of
Apparent
It. A of
Apparent
Declination
Apparent
Dec. of
Latitude.
*
(and #.
(and #.
of ♦.
(and *.
h m 1
h m a
/ *
(
t it
J1111C27
28 Librae - -
6
5 29 12
15 14 16*06
S.1743 55'5
19 16 13-4
S.6246
43 S. 90 S.
27
B.A.C. 5109
6
10 37 17
152553-76
N. 128
25 N. 36 S.
10 S. 80 S.
27
41 Librae- -
6
13 22 23
15 32 11*09
185452-7
£' 335 I
*7
k Librae - -
S
H 4i 33
153512-84
191751-9
S.1718
7N.56S.
27
X Librae - -
6
193547
154633-04
194854-1
S. 834
14 N. 46 S.
*7
B.A.C. 5281
6
213439
O46 12
15 51 9-94
S.20 38 22-0
N.32 37
58 N. 5 S.
28
p 1 Scorpii -
2
155838-54
192859-4
S.49 12
27 S. 90 s.
28
f? Scorpii -
5i
O4622
155838-90
I92846-4
S.4925
27 S. 90 s.
28
u l Scorpii -
4
I 20 10
155958-40
20 20 59*9
N. 044
22 N. 36 S. '
28
»• Scorpii -
41
134 58
16 033*20
2033 1-9
N.i 1 52
33N.25S. |
28
B.A.C. 5395
6
414
16 648-48
S.2I 557-9
?'35 35
S.58 10
60 N. 2S.
28
t// Ophiuchi
5
838 5
16 17 15-92
I9454I-2
39 S. 90 S. |
28
a Ophiuchi
4
11 57 20
16 25 12*09
21 12 48*7
N.20 18
40 N. 17 S,
28
B.A.C. 5663
2046 10
1646 31 *i6
2013 8*1
S-55 4*
38 S. 90 S. |
29
B.A.C. 5758
6
1 58 10
165913-49
21 23 55 • 8
N.io 8
26 N. 27 S. ;
29
{ Ophiuchi
5
75830
T714 0*21
S.20 59 3*8
S.16 2
54 S.
29
B.A.C. 5866
6
928 25
171742*46
21 1945*6
N. 5 5
21 N. 32S.!
29
B.A.C. 5954
6
15 7 45
I7 3I43-95
21 50 21*2
N.40 3
64 N. iN.
29
58 Ophiuchi
5
17 1 3
173625-82
21 3723*8
N.29 32
48 N. 8S.
29
B.A.C.6081
6
234044
1753 2*94
20 19 45*0
S.35 37
15 S. 82 S.
30
B.A.C. 6098
6
043 10
175539-08
S.20 44 7*7
S. 844
10N.46 s.
30
p Sagittarii
4
5 9 54
18 646-58
21 5 n-8
N.2444
45 N. 13 S.
30
14 Sagittarii
6
521 15
18 715*01
21 4428*9
N.64 37
68N.33N.
30
15 Sagittarii
5
5 45 5
18 814-71
204536-5
N. 7
26 N. 30 S. ,
30
16 Sagittarii
6
5 45 40
18 816-16
2025 12*3
S. 13 23
8N.51S.
30
21 Sagittarii
5
948 2
18 1823-45
S.20 36 4-8
N.i 1 28
32 N. 26 S.
30
B.A.C. 6347
6J
15 12 3
183155-61
21 851-7
N.66 25
69 N. 35 N.i
30
29 Sagittarii
6
193055
1842 44-09
20 27 16-5
N.45 24
70 N. 7N:
July 1
B.A.C. 6536
6*
2 59 10
19 1 25-00
1928 13 -6
N.27 49
53 N. n S. !
1
d Sagittarii
5
6 44 55
19 1047-96
19 927-7
N.32 41
59 N. 6S.
1
f Sagittarii
4
82341
191453-84
S.18 351-7
S.22 1
6 N. 60 S.
1
/>• Sagittarii
54
8 27
19 15 2-07
1831 18-2
N. 548
30 N. 32 S.
1
B.A.C. 6658
6
105759
1921 17*42
183532-4
N.27 2 3
54 N. 1 1 S.
I
e l Sagittarii
6
16 618
1934 1 64
16 33 29-6
S.5650
28 S. 90 s.
X
e* Sagittarii
5
1650 10
193550-07
162341-5
S.6059
33 S. 90 S.
1
q Sagittarii
B.A.C. 6992
54
23 717
195119-39
S.i547 57*3
S.4541
14 S.>9o S.
2
H
829 9
20 14 12*60
15 9 2*0
S. 29
29 N. 38 S.
2
P Capricor.
3
8 34 57
20 1426-70
15 852*6
N. 016
30 N. 37 S.
2
B.A.C. 7087
6
14 *55
202741*25
H 7 J 5'9
S. 8 4
23 N.45 s.
2
B.A.C. 7221
6*
20 56 31
204415-57
12 58 33-6
S. 539
26 N. 42 S-
2
B.A.C. 7242
6
215742
204641*91
S.12 051-2
S. 52 29
17 S. 90 s. '
3
8 Aquarii -
6
04834
20 53 29-50
13 30 11-3
N.67 39
76 N. 31 N.
3
v Aquarii -
44
45429
21 3 13*60
115035-9
N.13 30
46 N. 25 S.
3
1 7 Aquarii -
6
10 36 17
21 1640-19
94858*1
S.4258
5 S. 90 S.
- 3_
19 Aquarii -
54
11 34 9
21 18 56^15
S. 10 1441*6
S. 6
29 N. 43 S. ,
ELEMENTS OF OCCULTATIONS, i882. 421
Greenwich
Mean Time
At Conjunction in R.A.
Month
.
of Con-
Limits
and
Star's Name.
1
junction
Biff, of
of
Day.
1
inRiA.
of
Apparent
RA.of
Apparent
Declination
Apparent
Dec of
Latitude.
*
Cand #.
Cand #.
of*.
Cand #.
h m 1
h m ■
/ *
C
July 3
{ Aquarii -
44
165658
21 31 31*63
S. 822384
S.5416
16 S. 90 S.
3
c 1 Capricor.
V
20 X 36
20 36 19
3 59 58
21 3846*04
v 937 49
948 51*2
N.5747
80 N. 18 N.
3
c" Capricor.
2140 2*02
N.76 12
80 N. 45 N.
4
30 Aquarii -
B.A.C. 7744
?
2157 7*48
7 5U-5
N. 4 1
40 N. 33 S.
4
8 828
22 638*15
5I748-7
S.51 9
11 S. 90S.
4
44 Aquarii -
5 «f
IO 2 56
22 II 0*15
8. 558 12*4
N.13 29
49 N. 25 S.
4
51 Aquarii -
13 725
22l8 1*24
5 25 40*6
N.20 15
57 N. 19 S.
4
k Aquarii -
s
19 8 26
22 31 41*88
44950*1
N.61 59
85 N. 22 N.
5
3 Piscium -
6
5 17 59
225437*83
026 31-3
S.69 7
N.58 42
32 S. 90 S.
5
B.A.C. 8152
6*
153035
23 1731*22
S. 021 85
90 N. 19 N.
5
k Piscium -
V
17 2 12
23 20 56*00
N. 03653*2
N.20 32
58N.18S.
5
9 Piscium -
17 1042
23 21 14*99
02847*6
N.30 28
N.87 10
70 N. 9S.
5
15 Piscium -
6 i
2052 15
232929*67
03958*9
90 N. 30 N.
5
1 6 Piscium -
21 17 3
23 3025*00
127 9*4
N.25 20
63 N. 14 S.
5
X Piscium -
5
234915
2336 4*41
1 8 93
N.77 5
90 N. 48 N.
6
19 Piscium -
6
1 46
234024*63
N. 250 13*5
N. 2
37N.37S.
6
22 Piscium -
6
415 47
234558*32
19 39*62
2 1645*7
N.65 28
90 N. 28 N.
6
45 Piscium -
6
192341
7 233-9
6 18 32*1
S. 30 48
9 N. 69 S.
6
5 1 Piscium -
6
22 23 56
02021*16
N4946
90 N. 1 1 N.
8
x Piscium -
6
3 12 6
1 3053*06
11 32 26*1
N.59 50
90 N. 28 N.
8
io4Piscium -
6 i
1858 16
1 32 58*62
N.i3 4i25*3
S. 59 40
23 S. 76 S.
58 N. 12 S.
8
19 Arietis -
2 639*34
2 24 24*06
144342*6
N.20 7
9
27Arietis -
6
24356
17 1059*2
S.6044
26 S. 73 S.
9
40 Arietis -
6
10 22 19
24157*5*
I747 34-9
S.3741
1 N. 69 S.
9
x Arietis -
5i
104248
2 42 44 * 69
165828*7
N.13 57
52 N. 15 S.
9
f Arietis -
6
13 31 11
249 13*02
24948*81
N.1751 16*4
S. 18 32
19N.45S.
38 N. 26 S.
9
f Arietis •
6
134642
18 32 22
17 33 12*2
N. 1 22
9
53 Arietis -
6
3 049*23
17 25 29*6
18 20 32*3
N.41 30
90 N. 13 N.
9
54 Arietis -
6i
18 55 10
3 1 42 * 00
S. 11 4
26N.37S.
9
ft Arietis -
44
20 18 34
3 455*15
19 1650*0
S. 58 24
24 S. 71 S.
10
i3Tauri- -
s <?
92910
10 23 8
3 35 3?/75
33738-16
N.I9 19 19*9
N.1319
51 N. 10 S.
10
B.A.C. 1 143
2033 n*8
s.5613
N.15 58
22 S. 69 S.
10
B.A.C. 1242
6
1731 10
35416*53
1952 9*2
54 N. 7S.
10
a 1 Tauri - -
6
2058 3
02458
4 2 19*52
19 1746*0
N.63 16
90 N. 46 N.
11
»" Tauri - -
51
4 1022-71
20 17 13*8
N.15 18
54 N. 6S.
11
53 Tauri - -
56 Tauri - -
6
1 1948
41230*75
N.2051 21*8
s.16 I
21N.36S.
20 S. 69 S.
11
6
12337
41239*70
421 2*81
21 29 15*6
S.5344
11
B.A.C. 1373
6
4 59 7
21 21 25*2
S.3550
1N.61S.
11
1 Tauri - -
5
20 058
456 4*44
2125 8*8
S. 14 16
N.5637
23 N. 31 S.
11
/ Tauri - -
5i
22 4 30
5 oSi'3 1
20 15 38*3
90 N. 43 N.
11
i05Tauri - -
6
22 5 38
25838
5 o53 '9-5
N.21 32 50*6
S. 20 35
16 N. 37 S.
12
n Tauri - -
6
5 12 13*07
21 58 21*9
S.4454
10 S. 68 S.
12
1 i4Tauri - -
6
63538
52034*53
21 50 1*4
S. 37 30
iS. 61 s.
12
B.A.C. 1733
6*
913 54
52639*37
2023 n*8
N.4742
90 N. 32 N.
12
5 Tauri - - 3j 10 57 18 53037-35 N.21 4 3*8 N. 5 19
43 N. 11 S.
o
422 ELEMENTS OF OCCULTATIONS, 1882.
Greenwich
Mean Time
At Conjunction in R.A.
Month
cJ
of Con-
limits
and
Star's Name.
B
junction
Diff. of
of
Day.
in B.A.
of
([and #.
Apparent
R.Aof
(and*.
Apparent
Declination
of*.
Apparent
Dec. of
(and*.
Latitude,
h m a.
h m 1
/ *
(
/ it
July 1 2
B.A.C 1835
H
IS38 2
541 21*38
N.204928'3
N.14 6
53N. 4S.
*7
u Leonifl -
6
956
922 9*73
92539-46
10 038*70
9 33 59*4
N.34 17
81 N. |
17
h Leonis -
6
I5852
101355-2
S.23 13
14 N. 60 S. 1
17
14 Sextant is
6
20 24 13
6 1057-8
N.35 40
84 N. 1
17
16 Sextantis
6
21 42 24
10 3 5-40
64442*2
S.1126
25N.48S.
17
19 Sextantis
6
23374I
10 641*40
N. 5 n 36-6
N.61 53
90N.33N. 1
10 S. 86 S. ;
18
34 Sextantis
6
15 41 46
103635-49
1039 6-23
4"4r3
3 616-1
S. 46 1 1
'
18
36 Sextantis
6
17 428
N. 442
42 N. 32 S. !
18
B.A.C. 3726
6
20 55 5
1046 11 '64
I38 57-4
N.51 17
90N.17N. 1
18
55 Leonis -
6
2248 10
104939-93
1 21 43*0
N4831
90N.13N.
19
j? Leonis -
6
I o 53
8382I
105735-97
N. 03748-1
N.46 34
90N.11NJ
J 9
p* Leonis -
5
11 745*02
N. 034 6*i
S. 836
28 N.46 S.
19
e Leonis -
5
17 39 37
11 24 18*97
S. 221 23*8
N.70 48
88 N. 50 N.
21
X Virginis -
5
64858
12 33 n-68
721 i-i
S.1646
19N.55S.
21
B.A-C. 4259
6
6 53 IS
12 33 19-76
723 10*9
S.1519
20 N. 54 S.
1
21
28 Virginis -
6
8 15 2
123555-92
1245 16*69
S. 6 51 19*1
S.6053
32 S. 90 S.
21
B.A.C. 4312
6§
13 1 2 24
942 04
10 646*8
N.60 28
80 N. 29 NJ
21
\j/ Virginis -
5
14 46 25
1248 15*40
S. 252
32N.40S.
21
49 Virginis -
6
214957
2248
13 145*48
N. 1 12
35 N. 36 S.
21
50 Virginis -
6
13 337*23
942 12*7
S.3239
1 N. 78 S.
22
58 Virginis-
6
24651
13 11 18-77
S. 95541-0
S.5656
27 S. 90 S.
28 S. 90 S.
22
a Virginis -
1
64434
13 19 1-19
1032 56-3
S.5638
22
i Virginis -
6
7 30 57
13 2031-76
12 551*1
N.29 9
66 N. 8S.
22
B.A.C. 4531
6
11 33 8
13 28 26-93
1358 6-87
123645-5
N.23 14
58 N. 14 S. '
23
B.A.C. 4679
6i
2 2346
142426-7
N. 2 17
33N.35S.'
23
B.A.C. 4700
6
5 30 22
14 426-75
S.1544 53'1
N.57 17
74N.25N. 1
24
B.A.C. 4896
6
05635
1445 2-16
17 18 7*0
N. 5 39
32N.31 s. ■
24
* f Libras - -
4i
10 26 36
15 5 33'26
192049-8
19 12 18*5
N.6741
71 N.44N.
24
*■ Libras - -
¥
105653
15 63939
N.56 9
71N.23N.
24
28 Librae - -
142447
15 141583
174354-6
S.52 22
29 S. 90 s.
24
B.A.C. 5109
6
19 39 21
152553*54
S.IQ l6 12*8
185452*0
N.n 34
36N.25S.
24
41 Libra - -
6
22 27 54
15 32 10*89
S.23 55
64 s. '
24
k Librae - -
5
23 48 42
15 35 12-62
19 1751-2
194853-6
s. 727
N. 058
16N.45 s. 1
*5
X Librae - -
6
448 55
154632-85
23^36 S. 1
25
B.A.C.5281
6
6 50 11
15 51 9-76
2038 21*5
N.42
69 N. 6N.
25
/3 1 Scorpii -
2
10 5 30
155838-36
s.192858-8
S.40 2
18 S. 90 sJ
25
j9* Scorpii -
5i
10 5 39
155838-73
192845*9
S.40 16
18 S. 90 S. <
25
«* Scorpii -
4
1040 7
155958*23
20 20 59*4
N. 951
31N.27S. :
25
»" Scorpii -
4i
10 55 12
16 033*03
2033 J *5
N.20 58
43 N. 16 S.
25
>■ Scorpii -
4
125549
16 5 12-10
19 914*8
S.6953
59 S. 90 S.
25
B.A.C. 539s
6
13 37 16
18 6 13
16 648*32
S.21 557*6
N.4430
69 N. 8N.
25
«// Ophiuchi
5
16 17 15*78
194540*7
S.49 36
29 S. 90 S.
25
u Ophiuchi
5
21 28 59
1625 12*57
21 1248*5
N.28 37
50 N. 9 S.
26
B.A.C. 5580
6 137 33 '635 i'3°
I94I54-5
S.2013 7*8
S.71 22
63 S. 90 S.
26
B.A.C. 5663 6 t | 6 26 23 1 164631*07
S.48 7
30 S. 90 s.
,|
Digitiz
ed by vjC
ELEMENTS OF OCCULTATIONS, 1882. 423
Greenwich
Mean Time
At Conjunction in RJL
Month
oS
of Con-
TJnfifa
find,
Star's Name.
1
jnnction
Biff, of
of
Day.
i
inR.A.
of
Apparent
RA.of
Apparent
Declination
Apparent
Dec. of
Latitude.
s
€ and #.
<t and #.
of*.
(and*.
h m s
h m b
/ w
July 2 6
B.A.C. 5758
6
II 42 55
165913-42
S.2I 23 55-6
N.i 7 15
33N.*oS.
26
£ Ophiuchi
|
1747 53
19 18 51
17 14 0-17
20 59 3*6
S. 929
6 S- 4 ^-i
26
B.A.C. 5866
6
171742-43
211945*4
N.i 1 30
27 N. 26 S.
*7
B.A.C. 5954
6
I 144
17 3 1 43*95
173625-83
21 50 21*2
N.45 55
68N. 9 N.
27
58 Ophiuchi
5
256 5
21 3723*7
N.35 12
56 N. 3S.
27
B.A.G.6081
6
9 38 47
1753 2-99
S.20 1944*7
S.3038
10 S. 73 S.
27
B.A.C. 6098
6
IO4137
17 55 39'H
2044 7*4
S. 352
15N.41 S.
27
p Sagittarii
4
15 941
18 646-66
21 511*5
N.29 8
N.68 59
50 N. 9 S. '
27
14 Sagittarii
6
15 21 5
18 715-09
18 814*79
21 4428*7
68N.41N.
27
15 Sagittarii
5
IS4S I
2045 36*2
N.i 1 19
31N.26S.
27
16 Sagittarii
6
IS 45 36
194844
18 8 16-24
S.20 25 I2'0
S. 9 3
11N.46S.
27
21 Sagittarii
B.A.C. 6292
S
18 1823-56
18 242785
2036 4*5
N.15 21
35 N. 22 S.
60 S. 90 S. !
3
6
22 14 19
185848*3
S.7*45
B.A.C. 6347
*
ir 3 9
183155-75
21 85I-4
N.6941
N.48 10
69N.41N. ;
28
29 Sagittarii
5 3*47
184244*26
2027 i6*i
70 N. 10 N.
28
B JLC. 6536
6*
12 58 33
19 125*20
S.1928 12*9
N.29 41
54 N. 9S.
28
d Sagittarii
5
1643 1
19 1048*19
19 927*0
18 350*8
N.34 6
61 N. 5S.
28
p l Sagittarii
4
1821 5
191454*07
S.20 48
7N.59S.
28
f Sagittarii
B.A.C. 6658
Si
18 24 22
19 15 2-30
18 31 17*3
N. 7
31 N. 30 S.
28
6
20 54 10
19 21 17*67
*8 353^4
N.28 16
54 N. 1 1 S.
29
e 1 Sagittarii
6
159 35
1934 1-92
8.163328*3
S.5636
28 S. 90 S.
29
e* Sagittarii
5
24259
193550-36
162340*1
S.6051
33 S. 90 S.
29
g Sagittarii
I*
g55 3o
19 51 19-72
*54755-7
S.4621
15 S. 90S.
29
B. AC. 6992
6*
18 844
20 14 12-97
15 01
15 8507
S. 223
27 N. 39 S.
28 N. 38 S.
29
j9 Capricor.
3
18 1426
20 1427-07
S. 138
29
B.A.C. 7087
6
253624
621 29
202741*65
S.14 713*9
12 58 31*1
s.1042
21 N.47 S.
23N.46S.
30
B.A.C. 7221
6*
2044 16 '01
S. 9 12
S. 56 10
30
B.A.C. 7242
6
721 20
204642*35
12 048*6
21 S. 90S.
30
8 Aqaarii -
6
10 818
20 53 29* 95
1330 9-0
N.63 36
N. 854
76 N. 25 N.
30
9 Aqaarii -
4i
14 823
21 3 14*06
11 5033*2
41 N. 29 S.
30
17 Aquarii -
6
19 41 34
21 1640-68
S. 94855*0
S.48 19
S.1128
11 S. 90S.
30
19 Aqaarii -
5i
20 37 54
21 18 56*64
10 14 38*6
24 N. 48 S.
3 1
£ Aquarii -
4i
1 52
21 31 32*16
822 34*9
S.6026
23 S. 90 S.
31
c s Capricor.
¥
4 53H
21 3846*60
937 I'S
94847*9
N.51 15
80 N. 10 N.
31
c - Capricor.
5 25 11
2140 2*58
N.6936
80N.32N.
31
30 Aquarii -
B.A.C. 7744
V
"35 47
163644
2157 8-04
S. 7 5 7*8
S. 331
32 N. 40 S.
31
22 63873
Wl
S.5911
20 S. 90 S.
3i
44 Aquarii -
s i
182740
22 11 0*74
2218 1*84
N. 514
41 N. 32 S.
3'
51 Aquarii -
21 2021
525 36-6
N.i 1 39
47 N. 27 S.
Aug; 1
k Aquarii -
5
315 57
22 31 42*52
44945*9
N.52 43
85 N. 11 N.
1
B.A.C. 8152
6*
22 58 31
23 1731*91
S. 021 3*7
N. 036582
N.47 27
90 N. 6N.
2
k Piscium -
V
027 12
23 2056*70
N. 9 9
46 N. 29 S.
2
9 Piscium -
03526
23 21 15*71
02852*6
N.19 5
56 N. 20 S.
2
15 Piscium -
H
4 9 53
23 29 30*40
040 3*9
N.55 29
90 N. 15 N.
Digitized by
Google
t 2 4 ELEMENTS OF OCCULTATIONS
, 1882.
Greenwich
Afean finie
At Conjunction in R.A.
| Month
!
of Con-
Itimits
and
Star's Name.
junction
Di£of
of
Day.
1
inRA.
of
Apparent
R.A. of
Apparent
Decimation
Apparent
Dec of
Latitude.
*
( and*.
4 and #.
of*.
(Land #.
h m 1
h in h
t *
/ ft
Aug. 2
X Piscium -
5
7 1 16
85419
95718
2336 5-16
N. 1 8 14-4
N.65 10
90N.26N.
2
19 Piscium -
6
234025-35
2 50 18-6
S.I2 2
26N.48S.
2
B.A.C. 8276
6i
2342 50-18
134 2-1
N.78 4
90N.48N.
2
22 Piscium -
6
II 1927
234559*04
2 1650*7
N.53 14
90 N. 13 N.
3
45 Piscium -
6
2 OI9
O 1940*41
7 2 39*3
S.43 55
3 S. 82 S.
3
5 1 Piscium -
6
4 55 3*
02621*97
N. 61837-5
N.36 31
79 N. 3S.
4
v Piscium -
6
9 249
13053-89
11 32 31*1
N.45 56
90 N. 11 N.
4
i04Piscium -
*
9 57H
03328
13*59-45
13 41 30*2
S.73 35
44 S. 76 S.
S
19 Arietis -
2 640*22
1443 47*4
N. 619
43 N. 24 S.
5
27Arietis -
6
8 13 27
2 24 24 ' 92
17 11 3-4
S. 74 23
52 S. 73 S.
5
40 Arietis -
6
15 47 34
16 752
24158-38
N.174738'9
S.51 7
14 S. 72 S.
5
* Arietis -
5 <?
2424555
1658 32-6
N. 32
37 N. 27 S.
5
p* Arietis -
1855 1
24913-87
1751 20-3
S.3151
6 N. 61 S.
5
f Arietis -
6
19 1024
24949-66
1733 16-0
S.1157
25 N. 38 S.
5
S3 Arietis -
6
23 54 24
3 050-08
172533-3
N.28 23
70N. iN.
6
54 Arietis -
6i
17 6
3 14^-89
N.i8 20 36-i
S.24 10
14 N. 50 S.
6
8 Arietis -
44
140 5
3 4 56 03
191653-7
S. 71 27
48 S. 71 S.
6
13 Tauri - -
V
1449 °
3 35 3359
191923-0
N.055
38 N. 22 S.
6
B.A.C. 1 143
154249
33739-00
2033 14-7 S.6834
43 S. 69 S.
6
B.AX. 1242
6
22 51 23
3 54i7'3 6
1952 n*9
N. 4 2
41N.18S.
7
** Tauri - -
6
2 1849
4 220-36
N.19 1748-7
N.51 33
90 N. 30 N.
7
« 9 Tauri - -
s *
54630
41023-55
20 17 16-3
N. 3 49
41 N. 17 S.
7
53 Tauri - -
56 Tauri - -
6
641 33
4 12 31*56
20 51 24-1
S.2727
10N. 50S.
7
6
64524
4 1240*52
21 29 17-9
S.65 9
38 S. 69 S.
7
B.A.C. 1373
6
102155
421 3*62
21 21 27-4
S.47 1
12 S. 69 S.
8
1 Tauri - -
5
1 30 1
456 5*2J
5 052-08
N.21 25 10*4
S.24 19
12N.42S.
8
/ Tauri - -
*
3 34 36
201539-9
N.4643
90 N. 30 N.
8
iosTauri - -
3 35 45
5 54-73
21 3252*1
S. 30 28
6 N. 50 S.
8
n Tauri - -
6
83125
5 12 13*80
21 5823-1
S.5423
S.4640
22 S. 68 S.
8
H4Tauri - -
6
12 10 30
52035*25
2150 2-5
12 S. 68 S.
8
B.A.C. 1733
6§
1450 21
5 2640*08
N.2023 13-0
N.38 45
90 N. 22 N.
8
5 Tauri - -
1!
163450
53038-05
21 4 4-9
S. 328
33 N. 20 S.
8
B.A.C. 1835
21 18 30
541 22-05
2049 29*1
N. 543
43N.12S.
8
X 1 Orionis -
V
235925
5 47*5*95
2015 5*2
194328-9
S rV 5 l
87N.18N.
9
X* Orionis -
1432
548 0-07
N.67 8
90 N. 58 N.
9
X* Orionis -
6
4 117
55630-79
N.1941 23*2
20 8 180
N.61 55
90N.48N.
9
X 4 Orionis -
5
4 12 58
55657-03
N.34 35
83N.15N.
9
68 Orionis -
6
75022
62046-65
1948 50*1
N.45 3*
90 N. 26 N.
9
15 Geminor.
6
H53 38
14 5841
205133-4
S.37 44
2 S. 66 S.
9
16 Geminor,
6
62057-88
20 33 50'1
S.20 17
16N.42S.
9
9 Geminor.
44
15 26 33
62159-57
N.20 17 1-3
S. 5 1
32 N. 25 S.
10
B.A.C. 2432
H
1625 5
7 16 15*63
182944-7
S. 10 55
26 N. 36 S.
ii
f Geminor.
6
11 5
73241-59
175622-3
S.24 2
13N.53S.
l S
p* Leonis -
5
15 713
11 744-9 1
N. 034 7-4
N. in
38N.36S.
*7l
X Virginis-
5 13 20 12
1233 11-43 S. 72059-2
S. 310
32 N. 40 S.
Digitized by
O
ELEMENTS OF OCCULTATIONS, 1882. 42;
Greenwich
if tan Time
At Conjunction in R.A.
Month
„?
of Con-
Limits
and
Star's Name.
J
junction
Diff. of
of
Daj.
1
in&A.
of
Apparent
K.A.of
Apparent
Declination
Apparent
Dec of
Latitude.
(and*.
Cand #.
of #.
Cand #.
h m 1
h m •
# n
/ ft
Aug. 17
B.A.C.4259
6
13 2d 31
1446 41
123319*51
S. 723 9*0
S. 143
34N.39S.
*7
28 Virginia -
6
123553*66
651 17*2
S.47 12
14 S. 90S.
\i
\j/ Virginia -
5
21 20 13
12 48 I5'I2
8 54 5'7
N.u 12
47 N. 25 S.
49 Virginia -
6
42645
13 145-18
10 644*7
N.15 37
51 N. 21 S.
18
50 Virginia -
6
5 25 16
13 33692
942 10-7
S. 18 10
17 N. 57 S.
18
58 Virginia -
6
926 13
I3Ul8*47
S. 9 55 39'*
S.42 16
10 S. 90S.
18
a, Virginia -
1
13 26 14
13 19 0*87
10 32 54*4
S.4148
10 S. 90 S.
18
t Virginia -
6
14 13 6
18 1757
13 203144
13 28 26*60
12 549*1
N.44
78 N. 8N.
18
B.A.C. 4531
6
123643*6
N.38 14
78 N. 2N.
*9
86 Virginia -
6
259
13 394I-49
11 50 17*0
S.5835
32 S. 90 S.
19
B.A.C. 4679
6 i
02041
8 1848
1358 -5*52
8.142424*9
17 18 5*5
N.1741
49 N. 19 S.
20
B.A.C. 4896
1445 i-77
N.21 15
S.3656
50 N. 15 S.
20
28 Librae - -
6
22 553
3 28 25
621 23
151415*45
i743 53"3
19 16 ii*6
185450*9
12 & 88 S.
21
B.A.C. 5109
6
152553*14
N.2653
53 N. 10 S.
21
41 Libras - -
6
153210*49
S. 841
15N.46S.
21
k Libras - -
5
74419
153512*24
154632*46
S.19 1750*2
1948 52*6
N. 745
31N.29S.
21
X Libras - -
6
12 5241
N.16 1
39N.21 S.
21
B.A.C. 5281
6
14 57 17
18 18 4
15 51 9-38
15 58 38*00
20 38 20*7
N.56 59
69 N. 25 N.
21
jS 1 Scorpii -
2
1928 58-0
S.25 11
3 S. 66 S.
21
jS* Scorpii -
Si
18 18 14
155838*36
192845*0
S.25 24
4 S. 67 S.
21
«* Scorpii -
4
18 53 40
155957*86
16 032*65
S.20 20 58'6
N.2441
48 N. 12 Se
21
»• Scorpii -
4*
19 9 10
2033 0*7
N.3548
63 N.
21
** Scorpii -
4
21 13 12
16 5 "73
19 913*9
21 556*9
S.55 9
37 S. 90 S.
21
B.A.C. 5395
6
21 55 51
16 647*95
N.59 13
69 N. 29 N.
22
if/ Ophiuchi
5
2 32 32
16 17 1541
194540*0
S.35 5
14 S. 83 S.
22
Ophiuchi
5
6 1 12
1625 12*19
S.21 1247*9
N.42 58
69 N. 7N.
22
B.A.C. 5580
6
10 17 3
1635 0*95
^94i53-9
S.5715
41 S. 90S.
22
B.A.C. 5665
B.AC. 5758
6 t
151424
164630*73
2013 7*3
S. 34 16
16 S. 81 s.
22
2040 15
165913*09
212355*3
N.30 46
50 N. 6S.
23
£ Ophiuchi
5
2 55 51
171359*85
2059 3*4
N. 337
19N.33S.
23
B.A.C. 5866
6
42928
17 1742*11
S.21 1945*2
N.24 29
N.58 28
41 N. 13 S.
68N.26N.
23
B.A.C. 5954
6
1022 10
173143*66
21 5021*1
*3
58 Ophiuchi
5
12 1943
173625*55
21 3723*7
N.47 36
S.1849
68 N. 12 N.
23
B. AC. 6081
6
19 13 30
1753 574
1755 3 8*88
20 1944*6
1 N. 57 S.
23
B.A.C. 6098
6
20 18 2
2044 7*4
N. 752
26 N. 29 S.
24
f* Sagittarii
4
053 9
18 646*41
S.21 511*6
N.40 27
66 N. 3N.
24
15 Sagittarii
S
1 2923
18 814*55
2045 363
N.22 34
42 N. 15 S.
24
16 Sagittarii
6
12959
18 8 16*00
2025 12*0
N. 2 12
22 N. 35 S.
24
24
21 Sagittarii
B.A.C. 6292
5
6
nit
18 18 23*34
18 2427*04
2036 4*5
185848*2
N.26 12
S.62 9
48 N. 11 S.
42 S. 90 S.
24
29 Sagittarii
6
15 35 57
184244*09
S.2027 l6'2
N.57 59
N.38 39
70 N. 23 N.
H
B.A.C. 6536
6*
23 1157
19 125*07
19 1048*07
I928 13*0
67 N.
2 *
d Sagittarii
5
3 036
19 927*0
l8 350*6
N.42 36
71 N. 4N.
*5
f Sagittarii
4
44026
191453*96
S. 12 30
13N.49S.
1 *5
p' Sagittarii
Si
44346
1915 219
Sel8 31 17*2
N.15 18
40 N.22 S.
o
26 ELEMENTS OF OCCULTATIONS, 1882.
ita Tfaa At Co ^ c4ioa to RA -
.
Month
i
of Con-
junction
Limits
and
Start Name.
DiC of
of
Day.
J>
inBJL
of
Apparent
R.A.of
Apparent
Declination
Apparent
Dec. of
Latitude.
*
(and #.
(and #.
of*.
(and*.
h m s
li m b
1 n
C
Ug. 25
B.A.C. 6658
6
7 16 6
192117-57
S. 18 35 31 -4
N.36 15
65 N. 2S.
25
e l Sagittarii
6
12 26 13
1934 1-85
16 33 28*0
S.4917
20 S. 90 &
25
& Sagittarii
5
13 IO 13
193550-29
1623 39*8
S.53 38
24 S. 90 s.
9 S. 88 S.
25
g Sagittarii
I*
I92730
19 51 19-69
1547 55*2
S.40
26
B.A.C. 6992
6J
445 5*
20 14 12 -99
15 859*6
N. 238
32N.34S.
26
P Capricor.
1
45135
20 1427-09
S.15 850*2
N. 3 22
S. 631
33N.34S.
26
B.A.C.7087
10 15 24
202741*71
14 713-1
24N.43 S.
26
B.A.C. 7221
6*
17 140
18 133
2044 16' 11
12 58 30*2
S. 6 4
26N.43S.
26
B.A.C. 7242
6
204642*45
12 047*5
S. 53 12
N.66 7
18 S. 90 s.
26
8 Aquarii -
6
2048 32
20 53 30*06
1330 8*i
76N.29N.
27
y Aquarii -
44
048 15
21 3 14*20
S.11 50 32*0
N.1047
43N.27S.
27
1 7 Aquarii -
6
620 5
21 1040-85
948 53"5
S.4721
10 S. 90 S.
27
19 Aquarii -
54
716 7
21 1856-82
10 1437*1
S. 10 39
24 N. 47 S.
27
£ Aquarii -
44
12 28
21 31 32*56
21 3846*81
8 22 33 'i
S. 60 30
23 S. 90 S.
27
c 1 Capricor.
4i
15 2745
93659*8
N.50 40
80N. 9N.
27
c a Capricor.
6
15 59 12
2140 2*80
S. 94846*3
N.68 55
80N.31N.
27
30 Aquarii -
54
23 446
2157 8-30
7 5 5*7
S. 524
30 N. 42 S.
28
B.A.C. 7744
6
3 218
22 639-02
51742*2
558 6-i
S.61 45
22 S. 90S.
28
44 Aquarii -
?
45130
22 11 1*04
N. 222
38 N. 35 S.
28
51 Aquarii -
747M-
22 18 2*15
5 25 34*i
N. 816
44 N. 29 S.
28
k Aquarii -
■4
13 3022
22 31 42*86
S. 4 49 43*3
N4823
85 N. 7N.
29
BJLC. 8152
845 20
231732-37
S. 21 0*2
N.39 59
N. 128
83 N, iS.
29
k Piscium -
44
10 11 37
232057*14
N. 037 1*7
02856*1
38 N. 35 S.
29
9 Piscium -
6
10 19 37
23 21 16*15
N.i 1 22
47N.27S.
29
1 5 Piscium -
64
1348 9
23 29 30*86
040 7*4
N.47 14
90N. 6N.
29
16 Piscium -
6
14 1129
16 34 38
23 3026*19
N. 1 27 18 * 1
1 818*0
N. 519
42 N. 32 S.
29
X Piscium -
5
2336 563
N.5631
90 N. 15 N.
29
19 Piscium -
6
182425
234025*83
2 50 2&*4
S.2056
18N.57S.
29
B.A.C. 8276
t
19 25 31
2342 50*67
134 5*7
N.69
90 N. 31 N.
29
22 Piscium -
20 45 14
23 45 59' 54
21654*5
N4359
90 N. 3N.
30
45 Piscium -
6
1058 31
01940*97
N. 7 243*6
6 1841*7
8.55 2
14 S. 83 S.
30
5 1 Piscium -
6
1348
26 22 * 54
N.25 4
62N.13S.
30
& Piscium -
44
20 39 20
042 37-62
65657*2
N.72 31
90 N. 39 N.
3 1
v Piscium -
6
165848
13054-58
113235*3
N.31 56
72 N. 4S.
Sept. 1
19 Arietis -
6
75918
2 640-97
H 43 5i*5
S. 835
29 N. 38 S.
1
40 Arietis -
6
2246 1
24159-17
N.I74742-8
S.6631
34 S. 72 S.
1
* Arietis -
54
23 5 45
24246*34
. 1658 36-5
S.1453
22 N.42 S.
2
f Arietis -
6
1 48 15
24914-70
17 51 24*2
S.47 20
9 S. 72 &
2
f Arietis -
6
2 314
24950-49
173319-9
S.27 25
11N.55S.
2
53 Arietis -
6
63934
3 050*92
172537*0
N.12 50
50 N. 14 S.
2
54 Arietis -
64
7 M9
3 143*7°
N.i8 2039*7
S.3943
2 S. 70 S.
2
13 Tauri - -
5 i
21 12 31
3 35 34*42
19 1926*1
S.1443
22 N. 37 S.
3
B.A.C. 1242
82823
35418-23
195214*7
S.11 31
25 N. 33 S.
3
«* Tauri - -
6
4 221*20
191751*3
N.36 3
83 N. 13 N.
3 •' Tauri - -
5*
11 52 21
41024-40
N.20 17 18*7 S. 11 37
25 N. 32 S.
o
ELEMENTS OF OCCULTATIONS, 1882. 42 >
Greenwich
Mean Time
At Conjunction in R.A.
Month
«!
t\f(\\n-
Limits
and
Star's Name,
V
junction
Dift of
of
Day.
*l
inR.A
of
Apparent
R.A.of
Apparent
Declination
Apparent
Dec. of
Latitude.
*
Cand #.
{and #.
of #.
<£and#.
h m s
h m 1
t n
t »
Sept 3
S3 Tauri - -
6
12 46 28
4 12 32*41
N.2051 26*5
21 21 29*6
S.42 51
S.62 20
6S.69S.
3
B.A.C. 1373
6
1623 I2
421 4-47
32 S. 69 s.
* Tauri - -
5
7 19 10
456 6*o6
21 25 12*0
N.68 25
3 S. 64 S.
B.A.C. 1563
54
8 24 32
45838*28
193832*7
90 N. 60 N.
/ Tauri - -
Si
922 25
5 05291
20I5 4I*5
N.31 58
77 N. 15 N.
ic>5Tauri - -
6
92334
5 055-57
N.21 32 53*6
S.45 13
10 S. 68 S.
n Tauri - -
6
14 1624
5 12 14*63
21 58 24*3
S.6855
48 S. 68 S.
B.A.C. 165 1
6 i
15 246
514 1*83
194131*4
N.6759
90 N. 60 N.
ii4Tauri - -
I7S3 40
5 20 36*07
2150 3*5
S.61 2
32 S. 68 S.
65 N. 8N.
1 **
B.A.C. 1733
H
20 32 22
5 2640*89
2023 14*1
N.2431
5 Tauri - -
1!
22 l6 9
53038*86
N,2i 4 5-8
S.1737
10 N.34 8.
28 N. 25 S.
B.A.C. 1835
25813
541 22*88
204929*9
S. 810
X 1 Ononis -
Y
S3824
54726-77
548 0*85
2015 6*0
N.22 13
62 N. 4N.
X* Ononis -
5 53 26
194329*6
N.53 24
90 N. 37 N.
tf Orionis -
6
93921
5 56 3i # 57
1941 23*8
N.48 25
90 N. 30 N.
X 4 Orionis -
5
9 50 59
55657-81
N.20 8i8»6
N.21 6
61 N. 2N.
68 Orionis -
6
13 2747
6 5 5-14
194850*5
N.32 16
78 N. 12 N.
71 Orionis -
?
144441
6 757*33
19 11 36-4
N.66 14
90N.55N.
15 Geminor.
20 30 26
62047*40
62058*63
205133*4
S.5031
17 S. 69 S.
16 Geminor.
6
2035 29
20 33 5°' 2
S.33 4
3 N. 59 S.
y Geminor.
*&
21 3 19
622 0*31
N.20 17 i*4
S.1746
19 N. 39 S.
B.A.C. 2432
6 i
22 431
7 16 16*28
18 2944*1
S.21 41
15N.48S.
/ Geminor.
5 5226
73242*22
175621*5
S.34 6
2 N. 66 S.
1 Cancri -
6
14 21 46
1032 39
75019*90
16 6 6*5
N.20 59
61 N. 7S.
5 Cancri -
6
75449*11
1646 36*1
S. 34 32
1 N. 69 S.
8
29 Cancri -
6
55824
83330
822 4*41
N.i4 35 5i*o
S. 3 16
33N.33S.
8
B.A.C. 2872
6
8 27 14*87
133028-5
13 6 0*2
N.32 40
79 N. 2N.
8
A* Cancri -
6
131937
83644*26
N.27 24
70 N. 4 S.
8
A* Cancri -
6
15 1540
19 48 20
840 30*02
12 32 19*6
N45 18
90 N. 16 N.
8
60 Cancri -
6
84930*99
12 421*9
N.34 27
82 N. 3N.
8
a Cancri -
4
21 623
852 4*oi
N.121837'5
N. 858
46 N. 23 S.
9
k Cancri -
5
15259
9 i*3'39
9 3*3-58
11 820*1
N.3721
89 N. 5N.
9
B.A.C. 3122
6 <?
25449
12 226*5
S.25 56
10N.62S.
9
» Leonis -
12 3846
9 22 10*21
933592
N.33 33
80 N.
9
h Leonis -
6
1428 17
9253993
N.ioi3 54*7
S.23 29
13 N. 60S.
14
ifr Virginia -
5
3 "45
I248 14*95
S. 854 4-2
10 643*2
N.20 27
57 N. 16 S.
14
49 Virginis -
6
10 1732
13 i44*9 8
N.25 33
S. 8 9
63 N. 11 S.
26 N. 45 S.
H
50 Virginis -
6
11 15 59
15 1641
13 336*73
942 92
14
58 Virginis -
6
13 11 18*25
955 37-6
S.3154
1 N. 77 S.
H
a Virginis -
1
19 16 37
13 19 0*64
1032 52*9
S-3i 5
2 N. 75 S.
H
t Virginis -
6
20 j 28
824
13 20 31*21
S.12 547*4
N.5447
78 N. 22 N.
15
B.A.C. 4531
6
13 2826*35
123641*8
N4921
77 N. 15 N.
15
86 Virginis -
6
5 53 51
133941*22
1358 6*21
115015*4
S.47 1
17 S. 90S.
IS
B.A.C. 4679
V
15 13 4
13 56 32
142423-1
N.29 56
65 N. 6S.
16
8 Librae - -
14 44 12*12
S.15 3029*8
S.70 10
61 S. 90 S.
o
428 ELEMENTS OF OCCU
HLTATK
ONS,
1882.
Greenwich
Mean Time
At Conjunction in R.A.
♦
Month
of Con-
junction
TJifijfrt
and
Star's Name.
*
Difllof
of
Day.
j,
inB.A
of
Apparent
K.A. of
Apparent
Declination
Apparent
Dec of
Latitude.
*
{and #.
(and*.
of*.
(and #.
h m 1
h m 8
/ *
f H
Sept. 1 6
a Librae - -
*
14 2 4
144423-58
S.1533 9*8
1718 3*8
S.68 7
N.34 48
55 S. 90 S.
16
B.A.C. 4896
14 20 20
1445 1-40
68 N. iS.
*7
28 Libra - -
6
4 17 14
15 14 15*02
174351*8
19 16 10' 1
185449-4
S. 22 47
2 N. 63 S.
71 N. 6N.
*7
B.A.C. 5109
6
94436
152552-72
N.41 13
17
41 Libra - -
6
12 40 21
15 32 10-06
N. 544
29 N. 31 S.
*7
k Libras- -
5
14 44*
15 35 n-8o
S.19 1748-7
N.22 12
46 N. 14 S.
17
X Libra- -
6
19 18 34
154632-02
.194851-3
192856-8
N.30 35
57 N. 5S.
18
j9* Scorpii •
2
5021
15 58 37S3
155837-88
S. 10 30
11 N.48 S.
18
f? Scorpii -
Si
05031
192843-7
S.1043
10N.48S.
18
«* Scorpii -
4
1 2641
155957-38
202057-3
N.39 23
69 N. 4N.
18
«• Scorpii -
44
1 42 31
16 032*18
S. 20 3259-5
N.50 30
69 N. 17 N.
18
>■ Scorpii -
4
3 49 9
16 5 11-25
19 912*8
S.4025
20 S. 90 S.
60S.
18
$ Ophiuchi
5
9IS37
161714-94
194538-9
S.20 18
18
Ophiuchi
I
12 49 13
17 11 26
1625 11-72
21 1246-9
N.57 47
69 N. 28 N.
18
B.A.C. 5580
6
1635 0-48
1941 530
S.42 25
24 S. 90 S.
18
B.A.O. 5663
B.A.C. 5758
6*
22 16 34
1646 30-25
S.2013 6-5
S. 19 26
2 S. 59 S-
*9
6
35125
1659 I2'6o
212354-7
2059 2*8
N4534
69 N. 11 N.
*9
£ Ophiuchi
5
10 17 58
171359-37
171741-63
N.1821
34 N. 18 S.
64 N. 3N.
l 9
B.A.C. 5866
11 5424
21 1944*8
N.39 lz
19
58 Ophiuchi
5
19 59 18
173625-07
213723-4
N.62 9
68N.33N.
20
B.A.C.6081
6
3 634
17 53 2-26
S.20 19 44*5
S. 428
14 N. 41 S.
20
B.A.C. 6098
6
85736
175538-41
18 645-96
2044 7'3
N.22 12
42 N. 14 S.
20
1* Sagittarii
4
21 5 II'6
N.54 37
6 9 N.aiN.
20
15 Sagittarii
|
9 35 4
18 8 14*09
204536*3
N.3643
62 N.
20
16 Sagittarii
6
9 35 41
18 8x5-54
2025 12*0
N.1020
36 N. 20 S.
20
21 Sagittarii
5
135529
15 5» 54
18 1822-89
s.20 36 4-6
N.40 10
68 N. 4N.
20
B.A.C. 6287
6
1823 18-96
1847546
185848-2
S.6053
42 S. 90 S.
20
B.A.C. 6292
6
162747
18 2427*21
S.48 17
N.71 28
27 S. 90 S.
21
29 Sagittarii
6
01055
i8 4*43' 6 5
2027 16-5
70 N. 50 N.
21
B.A.C. 6536
6*
8 255
19 124-66
1928 13-3
N.5141
71N.15N.
21
d Sagittarii
5
"59 34
19 1047*68
s.19 927-4
N.55 23
71 N. 20 N.
21
p 1 Sagittarii
4
13 42 51
191453-58
18 351-0
N. 10
25 N. 36 S.
21
f Sagittarii
V
1346 18
16 23 54
19 15 1*82
18 31 17-6
N.27 58
54 N. 10 S.
21
B.A.C. 6658
19 21 17*20
183531-9
N.48 44
71 N. 12 N.
21
e* Sagittarii
6
214437
1934 1-51
163328*3
S.3712
9 S. 83 S.
21
e % Sagittarii
5
22 30 6
'9 35 49*95
S. 162340*1
S.4137
13 S. 90S.
22
g Sagittarii
2*
4 59 55
1951 19-36
154755-6
S.2831
IN.68S.
22
B.A.C. 6992
6*
1436 1
20 14 12-71
15 9 o*o
15 850*5
N.i 3 14
42 N. 24 S.
22
p Capricor.
1
14 41 56
20 1426-81
N.1357
42 N. 23 S.
22
B.A.C. 7087
20 15 29
202741*46
14 713*4
N. 330
33N.33S.
23
B.A.C. 7221
6 <?
3 13 11
2044 15*88
204642*23
S.I2 58 30*4
N. 3 10
34 N.34 S.
23
B.A.C. 7242
4 14 41
7 ° 3
12 047*6
1330 8*5
S.44 5
9 S. 90 s.
*3
8 Aquarii -
6
20 53 29*85
N.74 55
76N.45N.
2 3
> Aquarii -
44
11 1145
21 3 14*01
II 50 32*1
N.io 4
S.78
51 N. 19 S.
1. 2 3_
14 Aquarii -
6
14 3 28
21 10 2*02
S. 942 i*8
55 S. 90 S.
o
ELEMENTS OF OCCULTATIONS, 1882. 42,
Greenwich
Mean Time
At Conjunction in R.A.
Month
of Con-
limits
and
Star's Name.
!
junction
Diff.of
of
Day.
i
inB.A.
of
Apparent
R.A.of
Apparent
Declination
Apparent
Dec. of
Latitude.
a
(and #.
Cand *.
of*.
Cand*.
• *•'»
h m s
h m s
/ *
C
• it
Sept. 23
17 Aqaarii -
6
16 51 19
21 1640*70
s. 94853*3
S.3947
3 S. 84 S.
23
19 Aquarii -
£ Aquarii -
54
17 48 35
21 18 56*67
10 14 37-0
s.5345
30 N. 39 S.
23
44
23 653
21 31 32*24
8 22 32*7
16 S. 90S.
24
c l Capricor.
44
2 10 I
21 3846*71
93659*7
N.56 58
80 N. 17 N.
24
c" Capricor.
6
2 42 3
2140 2*69
94846*2
N.75 10
80N.43N.
24
30 Aqaarii -
B.A.C. 7744
¥
9 54 34
2157 8*24
S. 7 5 5'i
S. O 12
35N.37S.
18 S. 90 S.
24
135520
22 638-98
5i74i*4
5 58 5*4
S.57 9
24
44 Aquarii -
54
15 45 52
22 II 1*01
N. 641
42 N. 30 S.
24
51 Aquarii -
6
184332
22 l8 2*14
52533-3
N.i 2 9
47 N. 26 S.
25
k Aquarii -
5
02944
22 31 42*88
44942-4
N.51 22
85N.10N.
25
B.A.C. 8152
H
19 47 41
23 1732*50
S. 02058-7
N.39 55
82 N. iS.
25
k Piscium -
4i
21 1343
23 20 57*29
N. 037 3-4
N. 1 9
38N.35S.
25
9 Piscium -
6
21 21 42
23 21 16*30
02857*8
N.i 1 2
47 N. 27 S.
26
15 Piscium -
*
04925
232931-03
040 9*2
N.46 22
90 N. 5 N.
z6
1 6 Piscium -
1 12 37
23 30 26*36
1 2720-0
N. 423
40N.33S.
26
X Piscium -
|
3 34 59
2336 5*82
N. 1 819*8
N.55 12
90 N. 14 N.
26
19 Piscium -
6
524
23 4026*03
2 5024*5
S.22 33
17 N. 59 S.
26
B.A.C. 8276
6i
62440
2342 50*87
134 7-6
N.67 15
90N.28N.
26
22 Piscium -
6
74344
*3 45 59*75
2 1656*5
N.42 1
87 N. iN.
18 S. 83 S.
26
45 Piscium -
6
2147 5
1941*27
7 246*2
S.59 10
27
5 1 Piscium -
6
03357
718 6
02622*86
N. 6 1844*2
N.20 31
57 N. 17 S.
11
& Piscium -
¥
04237-99
65659*8
113238*4
N.67
90N.31 N.
v Piscium -
3 10 11
13055-07
N.23 51
S. 18 15
61 N. 11 S.
28
19 Arietis -
6
1745 5°
2 641*52
H 43 54*6
20 N. 47 S.
29
39Arietis -
64
14848
2 26 30*49
143057*3
N.67 34
90 N. 40 N.
29
40 Arietis -
6
8 540
24159*83
N.i7 47 45'9
165839*5
S.7728
59 S. 7* S.
29
7 Arietis -
s i
82447
242 47*00
S.2552
12 N. 53 S.
29
f Arietis -
6
11 2 10
24915*35
175127*1
S.5830
22 S. 72 S.
29
f Arietis -
6
11 1640
24951-14
17 33 22*8
S.3837
69 S.
29
53 Arietis -
6
1544 17
3 o5i'59
172539*8
N. 1 19
38 N. 25 S.
29
54 Arietis -
6i
16 540
3 '44*37
N.l8 2042*5
S.51 16
14 S. 72 s.
30
B.A.C. 1096
54
23158
32728-94
172652*0
N.67 50
90 N. 47 N.
30
1 3 Tauri
54
54928
335 35-iS
19 1928*6
S.27 4
11N.51S.
30
B.A.C. 1242
6
13 2656
35418-99
1952 16*9
S.24 14
13N.46S.
30
»* Tauri - -
6
1644 7
4 221-97
I9i753'3
N.23 12
62 N. iN.
30
»• Tauri - -
¥
20 1 50
4 1025*18
N.20 1720*7
S.24 35
13N.45S.
30
53 Tauri - -
20 54 19
4 12 33*20
2051 28-5
S.5552
21 S. 69 S.
Oct. 1
1 Tauri - -
34
042 4
42147*91
456 6-89
1855 8-9
N.7144
90 N. 62 N.
1
1 Tauri - -
5
14 54 52
21 25 13*1
S.5235
18 S. 69 S.
90 N. 38 N.
1
B.A.C. 1563
54
155827
45839*10
193833*7
N.54 58
1
/ Tauri - -
5 i
16 5446
5 053*72
5 056*40
N.20 1542-5
N.18 30
57 N. iN.
1
io5Tauri - -
i6 55 54
213254-7
S.5842
26 S. 68 S.
1
B.A.C. 165 1
64
22 26 14
514 2-65
52641-74
1941 32*1
N.54 28
90 N. 39 N.
2
B.A.C. 1733
64
3 47 39
2023 14-6
N.1057
48 N. 6S.
2
5 Tauri- -
34
52858
53039*73 N.21 4 6*3
S.31 11 5N. 51 S.
o
ELEMENTS OF OCCULTATIONS, i88z.
Greenwich
Mean Time
At Conjunction in RJL
1
1
.
of Con-
Limits
Star's Name.
f
junction
Dfftof
of
%
inR.A
of
R.A. of
Apparent
Declination
Apparent
Dec of
LatitBjda.
*
{and #.
(and #.
of *.
Cand *.
h m s
h m •
0/*
C
1 *
B.A.C. 1835
6J
10 428
54123-71
N.2049 30*2
8.2144
15N.40S. ■
X 1 Ononis -
*
12 41 S
54727-60
2015 6*i
N. 840
46 N. 9S.I
%■ Ononis -
"55 47
548 i'68
194329*7
N.39 5i
90 N.2i N.
X 9 Orionis -
6
16 36 5 |
1648 16
55632-40
194123*7
20 8 18-5
N.3454
82 N. 15 N.
% 4 Orionis -
5
55658-64
N. 734
44 N. 11 S.
68 Orionia -
6
202041
6 5 5*97
^194850*4
N.18 47
57 N. iS.
71 Ononis -
?
21 36 4
6 758-15
19 11 36*1
N.5246
90 N. 34 N.
15 Geminor.
3*5*4
62048*26
2051 32*9
S.6355
S.46 28
37 S. 69 S.
16 Geminor.
6
3 2022
62059-49
203349*7
12 & 69 S.
v Geminor.
4i
3 474*
622 1 -16
20 17 o*9
S.31 9
5N.55S.
B.A.C. 2432
»
42739
7 16 17-08
N.18 2942*7
S.34*4
iN,6 5 S.
/ Geminor.
12 1059
73242-98
175619*9
16 6 4*8
S.46 30
12 S. 72 &
1 Cancri -
6
20 36 22
75020*62
N. 858
46 N. 18 S.
5 Cancri -
6
22 4623
12 8 18
7 5449^3
822 5*09
164634-3
S.46 26
12 S. 73 S.
29 Cancri -
6
14 35 49*0
S.i4*7
22 N. 45 S.
B.A.C. 2872
6
144252
82715*53
N.13 3926-5
N.21 39
61 N. 9 S.'
A' Cancri -
6
1928 15
8 3644-90
13 558-1
N.1642
55 N. 15 S. J
A* Cancri -
6
21 22 4
840 30*65
12 32 17*6
N.3443
83N. 4N..
60 Cancri -
6
15619
84931-64
12 419*7
N.24 1 1
65 N. 8S.-
a Cancri -
4
3 14 16
852 4-65
12 18 35*3
S. 1 13
35N.33S.,
k Cancri -
h
8 037
9 i*3"99
N.ti 818-0
N.2731
69 N. sS. 1
B.A.C. 3122
9 2 26
184625
9 3*4*17
12 224*3
S.354*
*°* «s. #
Leonis -
922 10*76
933572
N.24 33
65 K. 9S.
h Leonis -
6
2036
92540*48
10 13 52*6
S.3221
4N.72S.
78 N. 2&
14 Sextanti s
6
15 5 56
10 039*46
6^1056*5
N.32 38
16 Sextantis
6
1624 *7
18 1948
10 3 6-14
10 642*12
N. 64440*6
S.14 2
22 K. 50 S.
19 Sextantis
6
5 11 356
N.59 56
90N.31 N.
34 Sextantis
6
1024 9
11 4641
153656
103634-00
41142*4
S.4244
7 S. 86 S.
36 Sextantis
6
1039 6-72
3 615-7
N. 837
46 N, 27 S.
B.A.C. 3726
6
1046 12-07
13857-6
N.56 28
90 N. 25 N.
55 Leonis -
6
172944
104940*33
N. 1 2143-3
03748-7
N.54 20
90 N. 22 N.
p % Leonis -
6
214744
10 57 36*3*
N.5348
90N.21N..
p* Leonis -
5
318
11 745*31
N. 034 6-5
N. 028
37 N. 36 &
8 Libra - -
6
19 33 21
19 38 52
144411-92
S.15 3028*7
S.6341
45 S. 90 S.
a Libras • -
H
144423*38
1533 8*7
S.61 36
41 S. 90 s.
B.A.C. 4896
6
1957 2
1445 1*19
S.1718 2*5
N41 20
73 N. 6N.
28 Librae - -
6
95031
15 1414*75
17 43 50-5
19 16 8*7
185448*1
S. 15 22
10N.53S.
71N.16N.
B.A.C. 5109
6
1517 4
152552*42
N4857
41 Libras - -
6
18 12 33
193648
1532 9*75
N.13 38
38 N. 22 S.
k Librae - -
5
153511*49
191747*4
N.30 1 1
57 N. 6S.
X Librae - -
6
05033
1546 31*68
S. 194849*9
N.38 50
70 N. 4 N.
j9 T Scorpii -
2
622 37
155837*18
192855-5
S. 158
19 N. 38 S.
j8 a Scorpii -
5*
622 47
I5 58 37-54
192842*5
S. 2 12
19 N. 39 s,
«* Scorpii -
4
659 2
15 59 5703
20 20 56*1
N.47 56
70 N. 15 N.
1 « 9 Scorpii -
4i
7H53
16 031-83
S.2032 58*2
N.59 3
69 N. 30 N. .
Digitized by '
O
JiiLii
iilVlJEjH 1
O
\jr \j
LtULl
AIIU1\
D, 18
02. 43
Greenwich At Conjunction in R.A.
Jaean lime
Month
.
of Con-
Limits
and
Star's Name,
J
junction
Din* of
of
Day.
j>
inE.A.
of
Apparent
R.Aof
Apparent
Declination
Apparent
Dec of
Latitude.
"
(tand #.
(and*.
of #.
€ and #.
h m 8
h m •
6 1 h
1 ff
Oct. is
y" Scorpii -
4
92148
16 s 10*90
S.19 911*6
S.3145
10 S. 77 S.
*5
^ Ophiuchi
5
1449 *8
16 17 14*56
194537*8
S. 1 1 24
8N.49S.
15
m Ophiuchi
I
1823 5 1
1625 11*32
21 1245*7
N.66 50
69N.46N.
15
B.A.C. 5580
224733
1635 0*07
1941 52*0
S.33 11
14 S. 80 S.
16
B.A.C. 5663
H
35452
164629*81
2013 5*6
S.io 2
8K47S.
16
B.A.C. 5700
*
5 3*53
16 50 10*55
1659 12*16
S.1921 4*5
S.64 2
53 S. 90 S.
16
B.A.C. 5758
9 3*43
16 331
212353*8
N.55 10
69 N. 24 N.
16
£ Ophiuchi
5
171358*92
2059 2*1
N.28 8
47 N. 8S.
16
B.A.C. 5866
6
1741 9
171741-17
1753 i-78
21 1944*0
N.49 2
69 N. 15 N.
17
B.A.C. 6081
6
9 720
20 1944*1
N. 542
24 N. 30 S.
*7
B.A.C. 6098
6
10 15 13
15 S 6
175537-9*
S.2044 7*0
N.32 22
55 N. 4S.
69 N. 38 N.
17
f* Sagittaxii
4
18 645*48
21 511*4
N.6451
17
15 Sagittaxii
S
15 43 20
18 8 13-60
2045 36*1
N.46 58
69N.12N.
48 N. 10 S.
69 N. 16 N.
17
16 Sagittarii
6
*5 43 5*
18 815*05
2025 ii*8
2036 4*5
N.26 35
N.50 28
17
21 Sagittarii
5
20 7 14
18 1822*40
17
B.A.C. 6287
6
22 i$ 27
1823 18*47
S. 18 47 54*5
S.5035
29 S. 90 S.
17
B.A.C. 6292
6
22 44 59
182426*71
185848*2
S.3758
16 S. 89 S.
*Z
B.A.C. 6294
6
22 48 20
182434*42
182849*7
S.6745
55 S. 90 S.
18
B.A.C. 6536
6*
1444 2
19 124*16
1928 13*7
N.62 2
71N.31N.
18
d Sagittarii
5
184727
191047*19
19 927*9
N.65 42
71 N. 37 N.
18
p 1 Sagittarii
4
20 33 47
191453*10
S.18 351-5
N.1028
3SN.26S.
18
p* Sagittarii
»
203721
1915 1*33
1831 i8*i
N.38 15
68 N. iN.
18
B.A.C. 6658
23 19 43
19 21 16*72
183532*4
N.59
71 N. 25 N.
19
e l Sagittarii
6
45027
1934 1*01
163328*9
S.27 1
1N.67S.
*9
6* Sagittarii
5
5 37 25
193549*46
162340*7
S.3127
3 S. 74 S.
19
B.A.C. 6746
6
6 446
193652*65
S. 15 44 21* I
S.6737
S.1828
46 S. 90 S.
19
g Sagittarii
5*
12 20 s
19 51 18*90
154756*5
I0N.56S.
*9
B.A.C. 6992
6*
22 16 7
20 14 12*27
15 9 o*8
15 851*4
N.23
52 N. 15 S.
*9
p Capricor.
1
22 22 14
20 1426*37
N.2343
53 N. H S.
20
B.A.C. 7087
4 744
202741*01
H 7H'3
N.13 5
43 N. 24 S.
20
BJLC. 7221
6*
11 2045
204415*47
204641*82
S.1258 31*3
N.1228
44 N. 25 S.
20
B.A.C. 7242
6
12 24 31
12 048*4
S.3450
1 S. 77 S.
20
y Aquarii -
V
19 37 5
21 3 13*63
11 5033*1
N.2758
62 N. 10 S.
20
14 Aquarii -
22 35 10
21 10 1*65
942 2*6
S.6916
39 S. 90 S.
21
1 7 Aquarii -
6
1 29 16
21 1640*33
948 542
S.31 12
5N.7iS.-
21
19 Aquarii -
5i
228 39
21 18 56*30
21 31 31*89
213846*38
S.io 1437*9
N. 519
38N.31S.
21
£ Aquarii •
44
7 58 45
822 33*5
S.45 34
9 S. 90 S.
21
c* Capricor.
44
11 836
937 0*7
N.64 59
80N.28N.
21
30 Aquarii -
?
19 951
2157 7*95
22 638*70
7 5 5*9
N. 7*5
42 N. 30 S.
21
B.A.C. 7744
2319 s
51742-0
S.50
1 1 S. 90 s.
22
44 Aquarii -
5i
1 13 27
22 11 0*74
S. 558 6-i
N.1342
49 N. 24 S.
22
5 1 Aquarii -
6
4 17 9
2218 i*88
52533*9
N1855
55 N. 19 S.
22 k Aquarii -
5
10 14 47
22 31 42*65
44943*0
N.57 39
S.7830
85 N. 18 N.
22 1 3 Piscinm -
6
20 12 41
225438*78
026 21*7
50 S. 90 S.
23IB.A.C. 8152
«*
6 6 32
23 17 32*37 S. 020 58*7 N.4425
86 N. 4N.
o
32 ELEMENTS OF OCCULTATIONS,
1882.
Month
and
Greenwich
Mean Time
of Con-
junction
At Conjunction in B.A.
Limits
Star's Name.
1
Di£of
of
Day.
'|
inR.A
of
ilJLof
Apparent
Declination
Apparent
Dec. of
Latitude.
•
*
Cand #.
Cand #.
of*.
Cand*.
Oct 23
k Piscium -
V
h m s
7 34 47
74258
h m a
23 2057*17
9 *
N. 037 3'4
02857*8
C
N. 5 3*
42N.3IS.
23
9 Piscium -
23 21 i6*l8
N.1523
51N.23S.
23
15 Piscium -
6*
11 1545
232930*93
040 9*2
N.50 22
90 N. 10 N.
23
16 Piscium -
6
113931
23 3026*27
1 2720-1
1 8 19*9
N. 821
44 N. 29 S.
23
X Piscium -
5
14 S 9
2336 5-74
N.58 56
90 N. 19 N.
2 3
19 Piscium -
6
155637
23 4025*96
2342 50*81
N. 2 5024*9
S. 19
19N.55S.
23
B.A.C. 8276
n
165835
i3 * r!
N.70 42
90 N. 35 N.
2 3
22 Piscium -
18 19 19
234559*70
21656*8
N.45 20
90 N. 5 N.
24
45 Piscium -
6
83731
1941*30
02622*91
7 247-2
S.57I7
17 S. 83 S.
58 N. 15 S.
24
51 Piscium -
6
11 26 38
61845-1
N.22 7
24
8 Piscium -
4i
18 15 20
042 38-08
N. 657 0*7
N.6755
90 N. 33 N.
25
* Piscium -
6
14 12 56
13055*29
11 32 39*8
144356-4
N.22 49
59 N. 12 S.
26
i9Arietis -
6
44518
2 641-86
S.2035
18 N. 50 S.
26
39 Arietis -
6J
124357
2 26 30*87
143058-8
N.6435
90 N. 36 N.
26
* Arietis -
54
19 15 8
2 4247*42
16 5841*3
S.2922
9 N. 57 S.
26
p* Arietis -
6
21 50 19
24915*79
24951*58
N.1751 29-0
S.62 12
26 S. 72 S.
26
p* Arietis -
6
22 437
173324*6
S.42 20
3 S. 73 S.
27
5 3 Arietis -
6
2 28 6
3 052*08
172541*5
S. 243
34 N. 29 S.
27
54 Arietis -
6*
249 9
3 1 44^7
18 2044*3
s.5519
18 S. 72 S.
27
B.A.C. 1096
54
13 4 4
32729*47
172653-3
N.63 6
90 N. 40 N.
27
i3Tauri - -
V
16 17 32
3 35 35*74
N.19 1930-1
S.32 1
6N.57S.
27
B.A.C. 1242
2345
35419-61
1952 l8'2
S.2937
8 N. 53 S.
28
»* Tauri - -
6
25738
4 2 22'6l
191754*4
N.1739
55 N. 5S.
28
•• Tauri - -
'<?
61035
4 1025*84
20 I72I-8
S.30 19
S.6138
7 N. 52 S.
28
53 Tauri - -
7 M7
41233*87
2051 29*6
28 S. 69 s.
28
B.A.C. 1 361
6
916 4
418 9*47
N.184620'6
N.70 26
N.6547
90N.56N.
28
< Tauri - -
34
104350
421 48-56
1855 9*7
90 N. 49 N.
29
* Tauri - -
5
03414
456 7*64
21 25 13*6
S.59 8
26 S. 69 S.
29
B.A.C. 1563
54
1 36 6
45839-85
5 54H8
193834-0
N48 23
90 N. 30 N.
29
/ Tauri - -
54
2 3052
20 1542*8
N.i 1 53
49 N. 5S.
29
i05Tauri - -
6
23158
5 057-16
N.21 32 55*1
S.65 19
36 S. 68 S.
29
B.A.C. 1 65 1
6*
7 53 1*
SH 3*43
1941 32*1
N.47 39
90 N. 31 N.
29
B.A.C. 1733
64
13 5 39
5 2642*51
2023 14-5
21 4 6*i
N. 359
40 N. 12 S.
29
5 Tauri - -
34
1444 8
53040-50
S. 38 12
2 S. 61 s.
29
B.A.C.1835
64
19 11 58
54124-50
2049 29*8
S.2853
8 N. 49 S.
29
X 1 Orionis •
4 6*
21 44 13
54728*39
N.20 15 5-6
N. 1 27
N.32 38
38 N. 16 S.
29
X* Orionis -
21 58 30
5 48 2*47
194329-2
77 N. 13 N.
30
X s Orionis -
6
13330
55633-23
1941 23*0
N.27 36
69 N. 8N.
30
X A Orionis -
5
144 34
5 56 59*47
20 8 17-8
N. 016
37 N. 18 S.
30
68 Orionis -
6
5 11 8
6 5 6*8i
194849*5
N.i 1 24
48 N. 9S.
30
71 Orionis -
54
62427
6 7 58-99
N.19 11 35"i
N.45 22
90 N. 25 N %
30
15 Geminor.
6
"54 35
6 2049*08
2051 31-8
S. 71 24
54 S. 69 s.
30
16 Geminor.
6
n 59 25
621 0*31
203348-6
20 1659*8
S. 53 57
S.3839
21 S. 69 s.
30
* Geminor.
44
12 26 2
622 i*99
2 S. 66 S.
3*
B.A.C. 2432
6*
12 28 58
7 16 17-92
N.18 2940-5
S.42 7.
7S. ',2S.
o
ELEMENTS OF OCCULTATIONS, 1882. 43
Month
and
Day.
Star's Name.
Greenwich
Mean Time
of Con-
junction
inRA.
of
Cand#.
At Conjunction in R.A.
1EX2
€and #.
DHnii
[matron
of*.
DiC of
Apparent
£>ec of
([and #.
Limits
of
Latitude.
Oct 3
Nov.
8
8
8
12
12
12
13
*3
13
13
13
14
J4
/ Geminor.
1 Cancri -
5 Cancri -
29 Cancri •
B.A.C. 2872
A' Cancri -
A* Cancri -
60 Cancri -
a Cancri -
k Cancri -
B.A.C. 3122
Leonis -
3 Leonis -
A Leonis •
B.A.C. 3336
14 Sextantis
16 Sextantis
19 Sextantis
34 Sextantis
36 Sextantis
B.A.C. 3726
55 Leonis -
p* Leonis -
p* Leonis -
X Virginia -
B.A.C. 4259
28 Virginia -
^ Virginis-
49 Virginis-
50 Virginis-
58 Virginis-
a Virginis-
t Virginis-
B.A.C. 5758
£ Ophiuchi
B.A.C. 5866
B.A.C.6081
B.A.C. 6098
p Sagittarii
15 Sogittarii
16 Sagittarii
21 Sagittarii
B.A.C. 6287
B.A.C. 6292
B.A.C. 6294
h m s
20 2 4
4 17 12
62445
I93253
22 5 5
24624
43842
9 9*9
102631
15 940
16 1050
14928
1 51 28
33812
11 6 19
22 145
231949
*H55
17 17 7
1*39 35
22 29 35
022 19
44013
10 1027
8 657
811 13
9 3*35
16 2 9
*J 4 4
o 158
4 O II
757*7
»43 45
15 15 34
21 42 14
231853
14 37 18
15 4444
20 32 55
21 IO57
21 11 35
»33 4°
341 26
41053
4*4 '3
h m 1
7 3*43"
75021*
7 54 50
822 5
82716
83645-70
84031-47
84932-42
8 5* 5*44
9 124*76
9 3*495
922 ii*54
922 15*4°
925412
93959-6!
o 040*15
o 3 6-83
642*82
03634*64
039 7-35
046 12*69
04940-97
05736-95
1 7 45*90
2 33 11*82
23319*90
23554-03
248 15*41
3 I45-37
3 3 37-1*
3 11 i8*6o
319 0-95
3 20 31-51
6 59 1 1 • 96
71358-68
7I7 40-93
7 53 148
75537*62
8 645-16
8 813-28
18 814-73
[8 18 22*05
182318-11
182426-36
'8*4 34*07
O I It
N.1756 17
16 6 1
16 46 31
H35 45
133923
N.13 554
12 32 14
12 4 10
12 18 31
11 8 14
N.12 220
9 33 53
8 41 41
10 13 4:
71452
N. 6 10 52
64436
5"3i
4 11 38
3 6 12
13854
1 21 39
3745
034 3
7*0 59
N.
N.
S.
S. 723
651 1
8 54 5
10 644
942 10
S. 95538
103253
12 547
212353
2059 l
S.21 1943
20 194
2044
21 5 11
204535
S.2025 11
20 36 4
184754
185848
S. 18 28 49
S.54IJ
1 18
S.S4 6
S.21 58
N.14 10
N. 918
N.27 20
N.16 54
S. 828
N.20 22
S.4249
N.17 39
N.69 25
S. 39 1 1
N.68 54
N.26 23
S.20 14
N.53 48
S.48 15
N. 3 9
N.51 10
N49 6
N.48 46
S. 420
N. 328
N. 456
S.40 12
N.1947
N.25 53
S. 741
S.3052
S.2931
N.5627
N.5711
N.30 17
N.51 12
N. 8 7
N.3448
N.6721
N4928
N.29 6
N.5 3 1
S.48 o
S.3523
S.6510
21 S. 72 S.
38 N. 26 S.
21 S. 73 S.
14 N. 54 S.
52N.17S.
46N.21S.
69 N. 4S.
55N.15S.
28 N. 40 S.
59N.12S.
7 S. 78 S.
56N.I6S.
90 N. 50 N.
3 S. 80 S.
90 N. 49 N.
67 N. 9 S.
16N.58S.
90N.22N.
14 S. 86 S.
40N.33S.
90 N. 18 N.
90 N. 15 N.
90 N. 14 N.
3*N.4iS.
39N.33S.
40 N. 31 S.
6 S. 90 S.
56 N. 16 S.
63 N. 10 S.
26N.44S.
2 N. 75 S.
3 N. 72 S.
78 N. 25 N.
69N.27N.
50 N. 6S.
69 N. 18 N.
26N.28S.
59 N. iS.
69N.44K
69 N. 15 N.
51 N. 7S.
69 N. 20 N.
27 S. 90 S.
13 S. 83 s.
49 S. 90 S.
28
(nautical almanac, 1882.)
Digitized by
>ogk
34 ELEMENTS OF OCCULTATIONS
, 1882.
Greenwich
Mean Time
At Conjunction in R.A.
Month
.
nf Prni-
Limits
and
Star's Name.
1
junction
Diff. of
of
Day.
in B.A.
of
Apparent
R.A.of
Apparent
Declination
Apparent
Dec. of
Latitude.
*
([and #.
{and #.
of*.
(and*.
■
h m b
h m b
/ *
1 n
Nov. 14
B.A.C. 6536
6i
20 922
19 123*78
S.1928 iv8
19 928*1
18 351*8
N.6444
71N.36N.
15
d Sagittarii
5
13 29
19 1046*78
N.68 26
71N.43N.
IS
f Sagittarii
4
2 14
19 14 52*68
N.13 12
38N.24S.
*5
p* Sagittarii
*
2 348
19 15 0*92
18 31 18*4
N.4059
7*N. 4 N.
15
B.A.C.6658
44656
1921 16*30
183532-7
N.61 45
71N.30N.
IS
e l Sagittarii
6
10 19 47
1934 o*6i
8*1633 29-5
S.24 15
4N.63S.
15
e Sagittarii
5
II 7 5
193549-05
162341*3
S. 28 41
1 S. 70 S.
15
B.A.C. 6746
6
II 34 39
19 3652-24
154421-7
S.6451
42 S. 90 s.
15
g Sagittarii
5i
I75323
3 5644
19 51 18*48
154757*0
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16
B.A.C. 6992
6*
20 14 11-83
15 9 i-8
N.2545
16
Capricor.
1
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201425-93
S.15 852-3
N.26 28
57N. 11 s.
16
BJLC. 7087
9 53 49
202740*59
»4 715*3
N.1548
45N.21 s.
16
B.A.C.7221
6 i
17 14 39
2044 15*04
12 5832-5
N.15 9
47N.22S.
16
B.A.C. 7242
18 19 41
204641*40
12 049-7
S.32 10
1 N. 73 S.
66N. 8S.
17
¥ Aquarii -
44
1 41 28
21 313*20
115034*4
N.30 35
17
14 Aquarii -
6
443 43
21 10 1*23
S. 942 3*9
S.6640
37 S. 90 S.
17
17 Aquarii -
6
742 2
21 l6 39'92
948555
S.2838
7N.68S.
17
19 Aquarii .-
£ Aquarii -
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84254
21 l8 55*89
101439-3
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40 N. 29 S.
17
44
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21 31 31*49
21 3845-98
822 34*9
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7 S. 90 S.
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c l Capricor.
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173642
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N.67 26
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30 Aquarii -
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152 4
2157 7*56
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18
B.A.C. 7744
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22 638*32
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5 58 75
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44 Aquarii -
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8 7 1
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N.1556
52 N. 22 S.
18
51 Aquarii -
6
II I64I
22 l8 1*52
5*5 35*4
N.21 7
57N.17S..
18
k Aquarii -
5
17 26 15
22 31 42*31
449 44*5
N.5945
85N.22N.'
19
3 Piscium -
6
3 44 56
22 5438*46
S. 02622*9
S. 76 36
49 S. 90 S.
19
B.A.C. 8152
6*
14 6
23 17 32*IO
S. 021 o*o
N.46 8
73 N. 6N.
19
k Piscium -
*i
15 31 33
23 2056*91
N. 037 2*3
028 56*7
N. 7 12
43 N. 30 S.
19
9 Piscium -
1540 2
23 21 15*91
N.17 4
53N.21 S.
19
15 Piscium -
6i
1920 31
23 29 30 a 68
040 8*o
N.5159
90 N. 12N.
19
16 Piscium -
6
I9 4S 9
23 3026*01
N. 1 27 19-1
1 818*8
N. 957
46N.27S. '
*9
X Piscium -
|
22 16 4
2336 5*49
N.60 30
90N.22 N.-
20
19 Piscium -
6
on 34
234025*72
2 5025-9
134 67
21655-7
S. 1729
35N.38S. ;
20
B.A.C. 8276
6f
1 1546
234250-57
N.72 12
90 N. 39 N. i
20
22 Piscium -
6
2 39 26
*3 45 59'46
N.46 48
90 N. 7 N.|I
20
45 Piscium -
6
172758
1941-14
N. 7 246*8
S.56 6
17 S. 83 S. 1
20
5 1 Piscium -
6
2022 52
02622*76
6 1844*5
N.23 15
N.68 56
60 N. 14 S. 1
21
8 Piscium -
44
325 8
042 37*96
657 0*1
90 N. 36 N. '
21
*■ Piscium -
6
235813
13055*30
113239-9
144356*8
N.23 * 8
61 N.i 1 S. j
22
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6
14 51 10
2 641*96
S.20 8
18N.49S. !
22
39 Arietis -
64
22 58 54
2 2631*02 N.i4 30 59*i
N.64 56
90N.37N.
23
* Arietis -
?
53617
24247-63 J 16 5841*9
S.29 6
9N.57S.
*3
p 9 Arietis -
8 13 36
249 16*02 1751 29*7
S.6158
27 S. 72 s.
*3
/> s Arietis -
6
828 5
24951*81 173325*3
S.42 61 4 S. '73 S.
— _?3
53 Arietis - 6
125444
3 052*J2_N.I72542*0
S. 2 31 1 34 N. 28 S.
Digitized by
Uoo
o
KjLjII
jiVJLEil\ 1
3 1
ur kj
L/*OU±j1
All-Ui\
O, 18
«*• 43
Greenwich
Mean Time
At Conjunction in R.A.
Month
Al
of Con-
junction
Limits
and
Star's Name.
I
Diftof
of
Day.
in R.A.
of
Apparent
R.A. of
Apparent
Declination
Apparent
Dec. of
Latitude.
^
{and #.
Cand #.
of #.
([and*.
b m s
h m i
r ♦
1 n
Nov. 23
54 Arietis -
6*
13 16 O
3 MS'"
N.18 2045*0
S.55 8
18 S. 72 S.
23
B.A.C. 1096
5i
2336 9
32739-79
3 35 3 6 "°9
172653*7
N.63 13
90 N. 40 N.
24
i3Tauri - -
V
2 5040
191930-7
S.3155
6N.57S.
24
B.A.C. 1242
10 19 29
3 5420-01
19 52 18*7
191754-8
S.29 32
8 N. 53 S.
24
* l Tauri - -
6
13 32 12
4 2 23 • 02
N.1743
55 N. 5 S.
t*t
»• Tauri - -
si
1645
4 1026-28
N.20 1722*2
S.3015
S.6135
7 N. 52 S.
24
53 Tauri - -
6
1736 6
.41234-31
2051 30-1
28 S. 69 s.
24
B.A.C. 1 361
6
19 50 4
418 9*92
184620*7
N.70 30
N.65 50
90N.57N.
24
f Tauri - -
3i
21*7 34
421 49*02
456 8*20
i8 55 97
90 N. 49 N.
, ZS
# Tauri - -
5
II 2 45
21 25 13-6
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26 S. 69 S.
! *5
B.A.C. 1563
5i
12 4 2
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N4827
90 N. 30 N.
*5
/ Tauri - -
5i
12 58 19
5 055-05
20 1542*6
N.i 1 57
49 N. 5S.
25
1 05 Tauri - -
6
12 5923
5 o57'73
213255*1
S.6515
36 S. 68 S.
«5
B.A.C. 165 1
f*
l8 17 14
5 14 4-02
1941 31*6
N.4744
90 N. 3 1 N.
*5
B.A.C. 1733
6*
232549
5264314
2023 13*9
N. 4 5
40 N. 12 S.
26
5 Tauri - -
11
I 258
5 3041*16
N.21 4 5*6
S.38 6
1 S. 61 s.
26
B.A.C. 1835
5 *6 58
54125*19
2049 29*1
S. 28 45
8 N. 49 S.
26
X 1 Orionis •
V
7 56 5*
8 1056
54729*09
2015 4*6
N. 136
38 N. 16 S.
26
X 9 Orionis -
548 3-16
1943 28*1
N.32 48
77 N. 13 N.
26
X 9 Orionis -
6
11 42 25
5563391
1941 21-9
N.2746
69 N. 8N.
26
X 4 Orionis -
5
11 53 18
557 o'i5
6 5 7-51
N.20 8 16-7
N. 027
37 N. 18 S.
26
68 Orionis -
6
15 1620
16 28 21
194848*2
N.i 1 36
48 N. 98.
26
71 Orionis -
#
6 759*69
19 11 33'8
N.45 34
90 N. 25 N,
26
15 Geminor.
6
21 5224
6 2049*82
2051 30*5
S. 71 10
52 S. 69 S.
26
16 Geminor.
6
2157 9
621 1 '04
203347-2
S-53 43
20 S. 69 S.
26
9 Geminor.
4i
22 23 16
2156 18
622 2*72
N.20 1658-3
S. 38 24
2 S. 65 S.
27
B.A.C. 2432
»
7 16 18*73
18 29 38*0
S.4138
6 S. 72 S.
28
f Geminor.
51930
73244*67
175614-5
164628*1
S.5339
N. 158
20 S. 72 S.
28
1 Cancri -
6
*3*3 43
15 2829
7 50 22 * 32
38 N. 26 S.
28
5 Cancri -
6
75451-53
S.5325
19 S. 73 S.
29
29 Cancri -
6
4 19 49
64854
822 6-78
N.i4 35 4i"9
S.21 6
15N.53S.
29
B.A.C. 2872
6
8 27 17*21
133919-2
N.15 3
53 N. 16 S.
29
A r Cancri -
6
11 2432
83646-58
13 550*6
N.io 14
47 N. 20 S.
29
A" Cancri -
6
I3H36
84032*33
12 32 IO'O
N.28 19
70 N. 3 S.
29
60 Cancri -
6
1740 11
84933-28
12 4 12*1
N.1756
56 N. 14 S.
29
a Cancri -
4
185546
852 6*29
N.12 1827*6
S. 7*5
29 N. 39 S.
29
k Cancri -
h
233347
9 125*61
11 8 io-i
N.21 28
60 N. 11 S.
30
B.A.C. 3122
33 54
9 32583
12 2 16*2
S.41 42
6 & 74 S.
30
a> Leonis -
6
10 253
922 12*39
93348*8
N.18 54
57N.15S.
30
3 Leonis -
6
10 451
9 22 16*25
841 45-0
N.70 39
90 N. 52 N.
30
h Leonis -
6
11 49 56
92542-11
N.io 1344*1
S. 37 55
2 S. 79 S.
30
B.A.C. 3336
6
19 11 35
940 0*53
71447-2
N.70 15
90 N. 5 1 N.
Dec. 1
14 Sextan tis
6
5 58 59
10 041*02
6 1047*8
N.2751
69 N. 8 8.
1
16 Sextantis
6
7 16 12
10 3 7*70
6 44 3 1 * 8
S. 1845
18 N. 56 S.
1
19 Sextantis
6
9 10 6
10 643*67
N. 5 11 27*0
N.55 17
90 N. 23 N.
2P 2
436 ELEMENTS OF OCCULTATIONS,
p . 1882.
Greenwich
Mean Time
At Conjunction in R.A.
1
Month
-t
of Con-
junction
Limits
and
Star's Name.
J
Di£of
of
Day.
in R.A.
of
{and *.
Apparent
RAof
([and*.
Apparent
Declination
of #.
Apparent
Dec. of
([and #.
Latitude.
h m s
*h m b
1 *
Dec. 2
34 Sextantis
6
1 421
2 26 19
103635-49
1039 8 '20
104613-53
N. 4 11 33'6
S.4636
n S. 86 S.
2
36 Sextantis
6
3 6 7*0
N. 449
41N.31S.
2
B.A.C. 3726
6
6 15 2
13849*2
S- 52 S l
90 N. 19 N.
2
55 Leonis -
6
8 713
104941-78
12134*9
N.50 48
90 N. 17 N.
2
p* Leonis -
6
12 24 I
105737-75
03740*4
N.50 29
90 N. 16 N.
2
p* Leonis -
5
17 53 14
II 746-70
N. 033584
SL 235
34N.39S.
4
X Virginia -
5
15 5* 54
123312-53
S. 721 3*9
N. 5 11
41 N. 31 S.
4
B.A.C. 4259
6
155712
17 18 51
12 33 20'6l
72313*7
?•?»
42 N. 30 S.
4
28 Virginia -
6
" 35 54-73
I248 l6'09
651 22*1
S.3829
4 S. 90 S.
4
J/ Virginia -
5
234952
8 54 9'3
N.21 27
57N.15S.
5
49 Virginia -
6
653 20
13 146*03
S.io 647*5
N.2728
65 N. 9S.
5
50 Virginia -
6
75127
13 3377?
942 13*8
S. 6 6
28N.43S.
5
58 Virginia -
6
n 50 31
13 11 19*26
95542*1
S.20 20
S.28 2
4 N. 72 S.
5
a Virginia -
1
154834
13 19 1-59
1032 56*9
5 N. 70 S.
5
t Virginia -
6
1635 2
13 20 32*15
12 5507
N.57 56
78N.27N.
5
B.A.C. 4531
6
203748
13 2827*24
S. 12 36 44* 7
N.52 59
77 N. 20 N.
6
86 Virginia -
6
2 194.6
13 3942*06
13 58 6-92
11 50 18*7
S.42 43
12 S. 90 S.
6
B.A.C. 4679
6 >
11 32 15
142424*9
N.J5 14
S.6246
72 N. 1 S.
7
8 Librae- -
6
9 54 1
144412-52
153030-7
42 S. 90 S.
7
a Libras - -
n
95927
144423*98
153310-7
S.604.I
39 S. 90 S.
7
B.A.C. 4896
6
10 1724
1445 1-79
S.1718 3*8
N.42 14
73 N. 7 N.
7
28 Librae - -
6
23 57 51
15 14 15-20
174551-3
1928 13*9
io 928*2
18 352*1
S. 14 19
10 N. 52 S.
12
B.A.C. 6536
64
2 2440
19 123*65
19 1046*65
N.6l 21
71 N. 29 N.
12
d Sagittarii
5
62549
8 826
N.6453
71 N. 35 N.
12
f Sagittarii
4
191452*54
N. 935
34N.27S.
12
f Sagittarii
¥
8 11 56
19 15 0*77
S.1831 18*7
N.3723
67 N.
I 12
B.A.C. 6658
10 51 50
1921 16*15
183533*0
N.58 1
71 N. 24 N.
! i2
e x Sagittarii
6
16 18 13
1934 0-43
16 33 30*0
S.28 13
69 S.
12
e % Sagittarii
5
17 4 37
193548-87
16 2341-9
S. 32 40
S.6851
4 S. 76 s.
12
B.A.C. 6746
6
17 31 40
19 3652*06
154422-4
49 S. 90 S.
12
g Sagittarii
B.A.C. 6992
Si
234327
9 3 6 43
1951 18-27
S.15 47 57" 7
S.1958
9N.58S.
J 3
6*
20 14 11*59
20 1425-69
15 9 2*5
15 853*1
14 716-3
12 58 33*6
N.21 5
51 N. 16 S.
13
|9 Capricor.
3
94250
N.21 48
51 N. 16 S.
*3
B.A.C. 7087
6
15 28 29
202740*33
2044 14-76
N.1055
41 N. 26 S.
13
B.A.C. 7221
6i
"43 35
N.io
41 N. 27 S.
13
B.A.C. 7242
6
234752
204641*12
S.12 050*8
S.3721
4 S. 82 S.
H
y Aquarii -
V
7 5 5
21 3 12*91
11 5035-6
N.25 9
58N.13S.il
H
14 Aquarii -
10 546
21 10 0-93
942 5*4
S.72 12
46 S. 90S. II
H
17 Aquarii -
6
13 246
21 16 39-61
94856-9
S.3416
IN.76S. II
H
19 Aquarii -
54
14 314
211855*59
10 1440*7
N. 2 13
35 N. 34 S.
H
£ Aquarii •
44
1940 7
21 31 31*18
S. 822 36*5
S.48 54
13 S. 90 s.
H
& Capricor.
44
22 54 29
21 3845*66
937 y 6
N.61 31
80N.25N.
15
30 Aquarii -
V
7 9 13
2157 7*23
7 5 r°
N. 330
38 N. 33 S.
*5
B.A.C. 7744
11 2632
22 637-99
51745*1
S.53 55
17 S. 90S.
15 44 Aquarii -
Si
132452
22 11 0*04
S. 558 9-3
N. 9 43
45 N. 27 S.
1
o
ELEMENTS OF OCCULTATIONS, 1882. 43 >
M^^e At Conjunction in R.A.
Month
.
of Con-
Limits
and
Star's Kama.
a
junction
IMttof
of
Day.
i
inR.A.
of
*{!jLof
Apparent
Declination
Apparent
Dec. of
Latitude.
*
Ctnd #.
(and #.
of*.
(and #.
h m ■
h m s
I 4T
/ it
Dec. 15
51 Aqoarii -
6
1635 x6
22l8 1*19
S. 5*5 37'*
N.14 50
51N.23S.
85 N. 15 N.
*5
ic Aquarii -
B.A.C. 8152
4
2247 I
223141-97
44946-5
S. 021 i-8
N.53 22
16
19 35 28
21 825
231731-77
23 2056*58
N.39 39
85 N.
16
c Piscium -
*
N. 037 0-5
02854*9
N. 044
37N.36S.
x6
9 Piscium -
2*17 3
232115-59
N.1036
47N.26S.
17
15 Piscium -
V
x 1 26
232930-35
23 3025*69
N. 040 6*1
N.45 32
90 N. 6N.
17
16 Piscium -
I 2632
1 27 17*2
N. 330
40 N. 33 S.
17
X Piscium -
5
4 019
2336 5-17
1 816-9
N.54 4
90 N. 15 N.
17
19 Piscium -
6
558 8
234025*40
2 5022*1
S.2354
14 N. 61 S.
17
B.A.C.8276
6*
7 3 39
2342 50*26
134 4'8
N.6547
90 N. 30 N.
17
22 Piscium -
6
820 3
233845
234559*16
N, 2 1653-9
N.40 25
S.62 15
86N. iN.
17
45 Piscium -
6
1940*86
7 MS'J
25 S. 83 S.
18
51 Piscium -
6
238 18
02022-48
6 1842-9
N.17 11
54 N. 19 S.
18
ft Piscium -
44
9 5222
04237-72
65658-6
N.63 3
90N.28N.
*9
v Piscium -
6
7 3i3
I 3055*11
11 3238-8
N.18 22
55 N. 15 S.
19
i9Arietis -
6
22 24 58
648 20
2 641*84
N.1443 56*2
S.2432
13N.55&
20
39Arietis -
6§
2 2630*94
143058*4
165841*6
N.60 59
90 N. 32 N.
6N.62S.
20
* Arietis -
*
1338 8
1620 17
24247*59
S.5239
S.6521
20
f Arietis -
S4915-9Q
2495178
175129*5
33 S. 72 S.
20
f Arietis -
6
1635 12
173325-1
S.4528
8 S. 72 S.
20
53 Arietis -
6
2i 951
3 052*32
N.172541'8
£ 137
31 N. 31 S.
20
54 Arietis -
6i
21 31 45
3 145"
18 2044-9
S. 58 12
N.60 50
23 S. 72 S.
21
B.A.C. 1096
54
8 930
3 2729-86
172653*4
90 N. 38 N.
21
13 Tauri - -
*
11 29 12
33536-18
19 19 30*6
S.34 6
4 N. 60 S.
21
B.A.C. 1242
19 9 16
35420*14
1952 iS'7
S.31 12
6N.55S.
21
» f Tauri - -
6
22 26 30
4 223-18
4 10 26*46
N.19 1754*6
N.1617
54N. 6S.
6N.55S.
22
*• Tami - -
?
M3 39
20 1722-2
S.3128
22
53 Tauri - -
23552
41234*50
2051 30*2
S. 62 44
31 S. 69 S.
90 N. 56 N.
22
B.A.C. 1 361
6
45240
4 l8 IO'I2
1846 20*4
N.6931
22
$ Tauri - -
34
62157
42149*23
1855 9*4
N.6457
90 N. 49 N.
22
1 Tauri - -
5
20 2 1 46
456 8*49
N.21 25 13*5
S.5858
26 S. 69 S.
22
B.A.C. 1563
Si
21 23 58
45840*70
193833*3
N.48 39
90 N. 31 N.
22
J Tauri - -
*
22 19 1
5 055-35
5 058-04
20 1542*2
N.12 12
49 N. 5S.
22
icjTauri - -
22 20 7
213254*9
S.65
36 8. 68 S.
23
B.A.C.1651
6*
34212
5H 4*37
1941 31*1
N.48 24
90 N. 32 N.
23
B.A.C. 1733
H
85416
52643-53
N.2023 13*3
?•* 1
42 N. 1 1 S.
23
5 Tauri - -
3*
10 32 22
53041-54
21 4 5-1
s.3656
59 S.
*3
B.A.C. 1835
64
145839
54125*59
2049 2 8'5
S. 27 15
10 N. 46 S.
23
X 1 Ononis -
44
172940
54729-51
20 15 3-9
N. 317
40 N. 14 S.
*3
X* Orionis -
6
174350
5 48 3'59
194327-3
N.34 30
80 N. 15 N.
23
X s Orionis -
6
21 1635
5 56 34'35
N.1941 20-9
N.2944
72 N. 10 N.
23
X 4 Orionis -
5
212733
557 o*6o
20 8 15-8
N. 226
39 N. 16 S.
24
68 Orionis -
6
051 32
\ \ 7 ' 9 2
6 8 0-18
194847-2
N.13 50
51 N. 6S.
«4
71 Orionis -
54
2 348
19 II 32*6
N.47 54
90 N. 27 N.
24
15 Geminor.
6
72842
620 50-35
N.2051 29-4 S.68 26
44 S. 69 s.
"'
8 ELEMENTS OF OCCULTATIONS, 1882.
fonth
and
Day.
Star's Name.
Greenwich
Mean Time
of Con-
junction
inRA.
of
(and #.
At Conjunction in B.A.
Apparent
It A. of
(u4 *.
Apparent
Declination
of*.
DMT. of
Apparent
Dec. of
(and #.
tec. 24
24
*5
*5
*5
26
26
26
26
26
27
27
27
27
27
2 2
28
23
28
28
36
29
29 .
29 B,
*9 55
29 />'
16 Geminor.
9 Geminor.
B.A.C. 2432
/ Geminor.
z Canon -
5 Cancri -
29 Cancri -
B.A.C. 2872
A 1 Cancri -
A" Cancri -
60 Cancri -
a Cancri -
k Cancri -
B.A.C. 3122
a Leonis -
h Leonis -
«■ Leonis -
14 Sextantis
16 SextantiB
19 Sextantis
34
Sextantis
, Sextantis
A.C. 3726
• Leonis -
Leonis -
3°
p % Leonis
733*7
7 59 35
72850
14 48 41
22 48 20
05148
'3 33 55
16 1 2
20 32 57
22 21 30
24322
35751
83151
93' 4
18 51 44
20 37 14
11 449
14 31 6
15 4717
'73944
923 3
1044 12
14 30 46
1621 57
20 36 40
2 333
h m s
621 X'57
6*2 3-25
7 16 19*38
7 3*45*33
75023*00
7 54 52'
8 22 7*
8 27 17 4
83647*
84033'
8 49 34 ■
852 T
9 1 26'
9 3 26'
9-22 13'
92542-
9 54 3'
10 041'
10 3 8'
10 644'
1036 36'
1039 9'
1046 14 ■
104942
105738*
O f *
N.»o 33 46* 1
20 1657*2
182935*9
I756 12*2
16 -555-9
N.164625 4
143538'
13 39 15
13 546*
12 32 6'
N.12 4 7"
12 18 23*
11 8 5'
12 2 12'
9 33 44'
N.
N,
10 13 3
836
6 1042
64426
5 11 21
4 11 28
361
13843
1 21 29
03734
11 747*60
N. 03352*5
9.505-9
a 35 38
a.4836
N. 735
S.47 38
S. 14 28
N.21 52
N.i 7 20
N.35 32
N.25 25
N. o 8
N.29 18
S.33 49
N**7 19
S.2924
9.73 39
N.37 H
S. 919
N.64 49
S. 36 30
N.1457
N.63 6
N.61 5
N.60 53
N. 756
o o
16 a 69 s.
1N.61S.
1S.68&
13 a 72 s.
44 N. 20 S.
12 a 73 S.
42N.44S.
61 n. 9 a
55 N. 14 S.
82 N. 4 N.
66N. 7 a
36 n. 31 a
71 N. 4S.
n. 72 a
N. 7 a
7N.67S.
62 s. 81 a
86N. 2N.
27 n. 45 a
90N.38N.
o 83 S.
52 n. 21 a
90 N. 34 N.
90 N. 31 N. ;
90 N. 30 N. i
45 N. 28 a!
Digitized by
""
O
OCCULTATIONS, i88z.
43$
| OCCULTATIONS VISIBLE AT GREENWICH.
%* The Angles are reckoned towards the right hand round the ctotunrerenoe of the Moon's image
as seen in an inverting telescope.
Month
6
Disappearance.
Reappearance.
B
and
Star's Name.
1
omcxTQfti
ICtra
Angle from
Sidere&l
T^ftftn
Angle from
l| Da7 "
»
Time.
Time.
K.
Ver-
Time.
Time.
N.
Ver-
Point tez.
Point
tex.
'
h m
h m
h m
h m
Jan. i
1 Tauri - -
5
10 13
15 26
88
129
II II
16 24
262
302
i
io5Tauri - -
6
12 33
17 45
153
188
12 53
18 5
199
232
2
5 Tauri - -
3 i
23 S2t
5 3
4
323
3
16 Geminorum
6
22 30§
3 37
%
100
23 8
4 IS
225
188
3
y Geminorum
44
22 50
■ 3 58
30
23 40
4 47
293
254
4
B.A.C. 2432 -
«i
12
5 15
no
72
1 3
6 6
240
200
5
29 Cancri - -
6
IO 17
X S 1S
"7
X
11 4
16 2
195
228
5
B.A.C. 2872 -
6
13 47
18 44
21
14 *7
19 24
197
237
7
14 Sextantis -
6
IS it
19 50
156
195
9
e LeoniB - -
S
II 14
is 56
57
55
12 36
17 17
242
*55
26
p* Arietis - -
6
9 25
13
149
187
9 59
13 34
225
262
26
p s Arietis - -
6
9 28
13 i
12 46
7i
no
10 17
13 52
303
338
29
5 Tauri - -
3 i
9 *3
20
61
9 55
13 18
3*3
4
30
16 Geminorum
6
7 3*
10 52
97
117
8 47
12 6
238
289
272
30
y Geminorum
4*
8 23
11 43
44
74
9 *7
12 46
327
3 1
B.A.C. 2432 -
6i
10 12
13 28
120
.56
10 59
14 14
202
242
Feb. 2
a Cancri - -
4
9 28
12 36
83
92
10 43
13 51
225
*49;
2
k Cancri - -
4
15 26
18 33
.11
91
16 19J
19 25
267
303
7
B.A.C.4312 -
IS 56f
1843
187
10
i x Librae - -
4i
10 23t
12 59
143
106
10 57
13 33
203
170
*3
HSagittarii -
6
'4 5*t
17 to
181
•a
24
«• Tauri - -
5 J
4 5*t
6 32
6
*4
53 Tauri - -
6
6 1
10 58
7 45
168
197
6 23
8 5
198
230
28
1 Cancri - -
6
12 23
15
51
11 41
13 6
302
341
Mar. 1
A f Cancri • -
6
10
II 22
18
38
10 54
12 15
292
321
1
A a Cancri - -
6
13 of
14 21
337
16
2
a Leonis - -
6
9 10
IO 27
31
28
10 20
11 37
274
288
3
14 Sextantis -
6
444
5 59
17
338
5 23,
6 37
303
265
4
B.A.C. 3726 -
6
S 44t
f 5S
338
300
4
5 5 Leonis - -
6
7 49
8 59
359
329
8 21
9 3i
308
282
t
p* Leonis - -
6
13 8
14 17
88
112
14 is
15 24
217
249
B.AC. 4700 -
6
»4 37t
IS 53t
is 30
160
165
16
c* Capricorni -
6
16 15
85
f 7
16 46
17 7
311
274
22
53 Arietis * -
6
10 11
10 10
32
69
10 34*
10 32
340
15
23
B.A.C. 1242 -
6
8 30
8 25
109
151
9 28
9 22
253
294
*5
B.A.C. 1835 -
H
5 44
S 3«
90
91
7 5
6 S3
259
282
*5
X 1 Orionis - -
4i
10 of
9 47
350
31
28
B.A.C. 2872 -
6
13 S L
13 *7
.3
129
14 48
14 22
231
270
30
14 Sextantis -
6
IS t|t
H 55
190
31
B.A.C.3726 -
6
1548
15 11
105
143
16 37
IS 59
211
250
— " "™ r,T "
Digitized by
o
44°
OCCULTATIONS, 1882.
OCCULTATIONS VISIBLE AT GREENWICH.
*** The Angles are reckoned towards the ri
ght hand round the circumference of the Moon's image
as seen in an inverting telescope.
Month
4
Disappearance.
Reappearance.
and
Star's Name.
1
fiidpw»*il
Meot
Angle from
Sidereal
"frfAflTl
Angle from
Day.
*
Time.
Time.
N.
Point
Ver-
tex.
Time.
Time.
N.
Point
Ver-
tex.!
t
h m
h m
h m
h m
o|
Apr. 1
c Leonis - -
5
12 II
II 31
3 f x
350
12 26
11 45
320
332
8
B.A.C. 5954 -
6
18 4 9 t
17 40
185
198
21
B.A.C. 1733 -
»
11 13
9 14
50
91
12 O
10 1
295
334;
*5
60 Caucri - -
9 4i
7 26
88
100
10 54
8 39
222
248;
30
B.A.C. 4312 -
6*
10 10
13 35
"5
145
16 59
14 24
206
240
May 3
« f Librae - -
54
10 10}
7 24
62
*5
11 12
8 25
263
230
4
B.A.C. 5395 -
6
x 3 J
10 10
146
"2
13 27
10 36
189
165;
6
14 Sagittarii -
6
IS 38
12 39
5i
28
16 33
»3 34
315
301 ,
7
d Sagittarii -
5
19 «3t
16 20
195
197
24
19 Sextan tis -
6
12 52
8 42
70
100
H 3
9 53
237
273
*5
55 Leonis - -
6
11 38
7 25
"5
124
12 25
8 12
187
206
27
B.A.C.4201 -
6
H 3
9 42
357
h
H 34
10 13
3 11
333
29
B.A.C. 4700 -
6
17 33
13 3
140
169
18 4
13 35
194
227
June 3
29 Sagittarii -
6
H «rt
9 36
120
85
15 H
10 35
248
220 '
6
c x Capricorni -
4i
16 56
« 55
95
59
»7 57
12 56
305
273
7
* Aquarii - -
*
1636$
11 31
78
39
17 24
12 19
323
285
8
i5Piscium- -
19 12
14 2
35
359
19 23
14 13
H
338
8
16 Piscium - -
20 I5f
15 5
205
174
30
B.A.C. 6347 -
f*
22 35f
15 59
14
47
July 5
B.A.C. 8152 -
6i
21 26
14 30
94
74
22 31
>5 35
322
313
28
B.A.C. 6536 -
H
22 2lf
13 55
196
225
30
8 Aquarii - -
6
17 23
8 49
98
68
18 29
9 55
299
276
Aug. 2
B.A.C. 8276 -
6i
17 I9J
18 41
8 33
4i
2
>7 37§
851
1
322
2
22 Piscium - -
6
9 55
136
98
x 9 35
10 49
271
2 35
8
B.A.C. 1733 -
6ft
22 29
13 19
107
69
23 23
14 13
262
222
2 3
B.AC. 5954 -
6
20 58
10 50
56
86
21 48$
11 39
320
354
25
B.A.C. 6658 -
6
17 af
6 46
190
169
27
c x Capricorni -
44
2 32
16 7
53
90
3 °i
16 35
352
30
28
k Aquarii - -
4
23 54
13 26
101
116
59
14 30
313
337
29
B.A.C. 8152 -
18 a6t
7 55
202
165
|
29
1 5 Piscium - -
64
3
13 30
104
in
1 10
H 37
3"
330 :
29
X Piscium - -
5
3 SSt
17 21
23
59
„ 3 °
5 1 Piscium - -
6
33
13 56
193
T 7
49
14 13
12 46
220
225
Sept. 5
68 Orionis - -
6
23
12
124
23 46
238
198
20
I* Sagittarii -
4
21 18
9 *9
7i
99
22 16J
10 17
312
345
20
15 Sagittarii -
*
22 8
10 10
129
162
2 3 5t
11 6
254
291 ;
21
B.A.C. 6536 -
19 53
7 50
106
114
21 7
9 5
285
304;
23
8 Aquarii - *
18 15
6 6
42
18
18 43
6 33
356
335
26
27
22 Piscium- -
& Piscium - -
6
4i
19 i8f
18 12
6 56
5 47
203
90
166
5*
19 I
635
312
273i
Digitized by
Google
OCCULTATIONS, 1882.
44
OCCULTATIONS VISIBLE AT GREENWICH.
* m * The Angles are reckoned towards the right hand round the circumference of the Moon's image
as seen in an inverting telescope.
Disappearance.
Reappearance.
Month
and
Star's Kama
I
Angle from
Angle from
5)
Sidereal
Mean
Sidereal
Mean
Day.
1
Time.
Time.
N.
Point
Ver-
tex.
Time.
Time.
N.
Point
Ver-
tex.
h m
h m
h m
h m
Sept.30
« x Tauri - -
6
5 22
16 42
122
143
6 27
1748
247
280
Oct. 1
/ Tauri - -
?
5 *5
16 42
X
H3
6 19
17 36
223
245
2
y* Orionis - -
9
II 22
43
I 8
12 22
282
240
2
X* Orionis - -
6
4 35
15 48
66
44
5 49
17 2
287
285
5
B.A.C. 2872 -
6
* 5
*3 7
122
83
2 49
13 51
216
176
6
a Leonis - -
6
6 28
17 25
92
60
7 40
18 37
225
203
22
k Aquarii - -
4
30
10 25
51
72
58
10 Si
5 38
2
26
*3
B.A.C. 8152 -
19 13
5 5
170
135
19 46
237
204
23
15 Piscium- -
6*
1 31
11 22
73
95
2 20
12 II
338
7
*3
X Piscium - -
5
5 «t
15 2
20
59
24
5 1 Piscium - -
6
2 2
11 49
173
192
2 39
12 26
236
262
25
* Piscium- -
6
5 4
H 47
141
177
5 56
IS 38
252
291
29
B.A.C. 165 1 -
6i
21 4J
6 32
96
64
21 S3
7 21
272
236
Nov. 2
k Cancri - -
5
4 22
*3 34
no'
7 1
5 19
14 30
218
ifri
15
B.A.C. 6658 -
6
20 15
4 37
64
73
21 10
5 3'
331
348
24
«' Tauri - -
6
6 7
13 5*
i5>
181
6 46
14 30
217
252
25
B.A.C. 1563 -
54
4 7t
11 48
4
349
*l
B.A.C. 165 1 -
*
11 l l
23 8
is
72
113
12 7
19 46
277
3i5
26
X* Orionis - -
127
88
*3 53
7 31
238
198
26
y? Orionis - -
6
2 52
10 29
103
65
4 1
11 38
256
227
26
71 Orionis - -
*
9 18
16 54
5i
88
10 17
17 52
287
328
29
A' Cancri - -
4 16
11 41
81
41
5 *5
12 so
249
214
29
60 Cancri - -
6
10 35t
17 59
156
179
Dec. 14
> Aquarii - -
4i
1 27
7 53
116
189
2 11}
8 37
250
287
17
X Piscium - -
5
20 29
2 45
85
21 38
3 53
296
274
>7
B.A.C. 8276 -
V
57t
7 12
27
4i
17
22 Piscium - -
2 30
8 44
95
124
3 32
9 47
3*3
347
'9
* Piscium • -
6
58f
7 5
204
196
20
3gArietis - -
6i
*3 S7t
6
20
349
21
B.A.C. 1096 -
54
1 34t
7 33
15
348
22
« Tauri - -
34
23 igt
12 38
5 14
10
329
li
X 9 Orionis - -
6
18 28
138
176
188
»3 7
18 56
207
243
B.A.C. 2872 -
6
10 52f
16 30
158
27
k Cancri - -
5
1 23J
7 5*
6 58
97
62
2 14
7 49
238
200
28
14 Sextan tis -
6
13 29
56
32
9 l 7
'4 47
253
244
28
19 Sextan tis -
6
13 9
16 46
345
'7
13 24
18 S3
323
356
29
55 Loonis - -
6
II 20f
332 338
t A near f
ipproach.
* Star set
ting.
J Star bcl<
jw the horizc
>n.
§ Starrisi
«&
Digitized By '
O
[4 z JUPITER'S SATELLITES, 1882.
MEAN TIME.
JANUARY.
Day. b m s
D»y.
h m »
Diy.
h m a
Day.
h m 1
I
I. OcD. 3 5i
9
I. Tr. I. 2 56
16
H. Sh. L* 7"
*3
H. Sh.E.* 12 28
I. EcR.* 7 6 44
I. SKI. 4 6
II. Tr.B.* 7*1
*4
I. Oc D. 3 5S
ILTr.I. 2344
n.Sh.I.t 433
n. Tr.E.f 4 5©
I. Tr.E.* 5 7
I. Sh. E.* 8 14
I. Ec R.* 7 *3 33
2
I.Tr.I. i 5
II. Sh. I. 1 54
17
II.Sh.E.* 9 49
I. OcD. 2 1
*s
I.Tr.1. 1 7
II. Oc D. 1 44
I. Sh.1. 211
I. Sh.E.* 619
IL Sh. E.* 7 1°
I. Ec. R.* 5 *7 3 6
I. Sh. L 2 26
II. Tr.E. 221
U. OcD. 2313
I. Tr. E. 3 *o
I. Tr.E. 317
10
I. OcD. 9
I. Tr. I. 23 14
III. Oc. D. 3 49
I.Sh.E.f 4*3
I. Be. R. 3 31 39
in. OcD. 2358
LSh.E.f 438
II. Sh.E.f 4 3i
ni. OcD. 2013
18
I. Sh. I. 30
HLOcR.* 5 5i
I. OcD. 22 19
n. OcD. 2045
I. Tr. E. 1 26
U. Ec. R.* 6 54 4
3
I. Ec R. 1 35 45
HI. OcD. 1632
II. OcD. 1819
I.Tr.1. 2123
m. Oc. B. 21 9
I. Sh.1. 2235
nLOcR. 158
I. Sh. E. 2 43
n.EcR 4 18 n
HI. Ec D.* 9 19 4*
in. Ec. R.*io 57 26
LOcD. 2223
III. Oc. R. 1825
I. Tr.E. 2335
IILEcD.* 518 1
26
I. Ec R. 1 52 28
I. Tr. I. 19 3*
11
I. Sh.E. 048
UI. Eo. R.* 6 55 €
I. Tr. I. 19 35
I. Sh. I. 20 40
m.Ec.D. 11541
I. OcD. 2029
II. Tr.I. 2034
III. Ec D. 21 13 51
n. Ec R. 1 4* «
I. EcR. 235630
I. Sh. I. 20 55
LTr.E. 2145
m. EcR. 25210
*9
I. Tr. I. 17 42
I. Tr. E. 2i 48
III. EcR. 224947
I. OcD. 1837
ILTr.I. 18
L Sh. E. 23 7
I. Sh. E. 22 52
I. EcR. 22 034
I.Sh. I. 1859
II. Sh. I. 23 10
m
II. EcR. 23 638
12
n. Tr. I. 15 »7
LTr.E. 19 55
II. Tr. E. 23 11
4
LOcD. 1646
I. Ec R. 20 4 39
I. Tr. I. 15 50
LSh.I. 17 4
II.Sh.L 2031
11. Tr. E. 20 38
27
H. Sh.E. 148
LOcD. 1652
5
II. Tr.I.*i2 58
IL Sh. I. 17 5*
LSKE. 21 12
L Ec. R. 20 ai 31
I. Tr.I. *I4
I.Sh. Lf»5 9
I. Tr.E. 18 3
n.Tr.E. 18 5
20
ILSkE. 23 9
I. OcD. i4S 8
28
I.Tr.I. 14 4
n. Oc D. 15
II. Sh. L 1*5 14
II. Tr.E. 1536
I. Sh. E. 19 16
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JUPITER'S SATELLITES, 1882. 44 5
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FEBRUARY.
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4 6 JUPITER'S SATELLITES, 1882.
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JUPITER'S SATELLITES, 1882. 44
MEAN TIME.
MARCH.
Phases of the Eclipses of the Satellites for an inverting Telescope.
Configurations at 8 h 30™ for an inverting Telescope.
Day.
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JUPITER'S SATELLITES, 1882. 449
MEAN TIME.
APRIL.
Phases of the Eclipses of the Satellites for an inverting Telescope.
1.
(Qj.
^
^ s
HI. {__)* r
11.
/-~\
TV £ .. A NoEclipae
1 1 r
\ 1 •
1V * 1 1 of thin
V^/
V" "J batelute.
Configurations at 8 h for an inverting Telescope.
Day.
fPert. I East.
. I
a- .1 O -4 -3
2
O
•» O 3- -4
3
03-
O •» -4 -i#
4
3. 1. O- 4.
5
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6
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7
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8
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9
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10
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11
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12
4-
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13
'4
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14
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15
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16
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17
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18
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19
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20
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21
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23
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24
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25
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27
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28
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45
O «
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JULY.
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JUPITER'S SATELLITES, 1882. 45
MEAN TIME.
JULY.
Phases of the Eclipses of the Satellites for an inverting Telescope,
Day.
Ol-
io
I II
12
■©
"■ •■%
- ,m
IV.
@
No Eclipse
of this
Satellite.
Configurations at 15 11 for an inverting Telescope.
West
East
O" 4- *-
4' a- O
•2 1. o
•"* 3-
•I 03- *•
3.2.
O 1.
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O i-
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i-O
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13
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H
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15
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16
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17
O
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18
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19
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20
o
21
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22
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23
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24
O
25
26
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27
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28
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30
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O i-
4.
202
45a JUPITER'S SATELLITES, 1882.
MEAN TIME.
AUGUST.
h m 8
I. Ec. D.*i4 *9 30
I.OcR. 17 41
11.Oc.11 18 18
I.Sh.1. 11 41
LTr.I. t*M«
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Tr.I. 7
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Tr. E. 9
Ec. D. a
Ec. D. 3
Oc. R. 6
Oc. R. 7
III.
II.
I.
III.
II.
II.
in.
I.
II.
III.
I.
I.
I.
I.
II.
I.
I.
II,
I.
I
I,
I,
III
II.
I.
Ill,
II
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I. Oc.
III. Oc.
II. Tr.
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II. Ec.
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13
15
16
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JUPITER'S SATELLITES, 1882. 453
MEAN TIME.
AUGUST.
Phases of the Eclipses of the Satellites for an inverting Telescope.
1.
«©
"• • #
in.
M©
IV.
Kb Eclipse
of this
Satellite.
B
Configurations at 14* 30 m for an inverting Telescope. .
Day.
West.
East.
O
4- -i%'i%
O
2.3.
to -i
3. .2 I- Q4-
O '.;
O x--3
: o
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15
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21
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22
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23
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24
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25
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26
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27
28
2- O *'
29
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30
31
'i O «• 3'
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454 JUPITER'S SATELLITES, 1882.
MEAN TIME.
SEPTEMBER.
Dmy.
h m e
0*7.
h m s
Dmj.
h m 8
Day.
h m ■
I
III. Sh.B. 15*
8
I. Sh. I. *I5 4°
15
I.Sh.E. 1948
23
I.EcD.*i6 4oi7 f
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16
I. EcD.*i4 4^55
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*4
IL Oc R. a 37
I. Tr. I. *i5 *
9
I.Ec.D.*i2 53 33
II. EcD. 183548
I. Sh.L*i3 5 6
I. Sh.E.*i6
n. Bc.D.*i5 59 »
17
U. Oc. R. 00
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I.Tr.B. 17 l 7
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I.Sh.E.*i6xx
2
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n. OcR. 21 21
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LTr.B.fi7 3i
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10
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I. EcD.* 1 1 836!
L Oc. R.*i4 3°
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I. OcR.* 14 41
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I. Sh. E.*i2 23
18
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n. Sh. L*i5 3°
3
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L Tr. I. 9 3*
IX
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LSh.B. 1029
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16
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4
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SEPTEMBER.
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JUPITER'S SATELLITES, 1882. 4 S7
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OCTOBER.
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;8 JUPITER'S SATELLITES, 1882.
MEAN TIME.
NOVEMBER.
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DECEMBER.
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L Tr. I. 1 35
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LOcD. 2242
I.Ec. R. 1 3 3°
II.Tr.L *U32
II. Sh.I.*ii49
II. Tr. E.*i4 *6
II. Sh.E.* 14 34
I.Tr. I. 20 1
LSh. I. 2010
I. Tr. E. 22 16
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III. Tr. I. *I4 35
IILSh.I.*i5i6
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in. Sh.
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27
28
29
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R*i7 11
E.*i7 57
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I. *i4 *7
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E.*i6 55
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1L Tr. I. o 39
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L Ec. R.* 8 29 45
II. OcD. 1939
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HI. Tr.I.*i7si
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III. Tr.E. 2027
LEc. R. 21 27 15
IU.Sh.£. 2157
Digitized by
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O
JUPITER'S SATELLITES, 1882. 46
MEAN TIME.
DECEMBER.
Phases of the Eclipses of the Satellites for an inverting Telescope.
L
*r^\
I]
r~^\
2 f — }-
fL A V.
A ;T
v>
• \^ m J%
II.
/"~\
I
ill It
V. of this f — )
a jr
*K~ J*
Satellite. V J
Configurations at I2 h for an inverting Telescope.
D»J.
We*t.
East
1
4. .1 O *• 3.
2
4- *• O »• 3-
3
4. ., 3. O •»•
4
"4 3- i«0 "»
5
•4 -3 O •«•
6
.4 *• i- -3 O
7
.4 -aO x. "3
8
•x O -4 *• 3.
9
*• O «• 3- '4
10
.» .13-0 -4
11
Oi- 3' O •« *4
12
•3 C
) .1 a- 4.
3 4.
13
*• x c
14
•* O * x -S 4-
IS
•1 O f. "3
16
O 4 0" «• 3-
»7
03- 4- •« -i O
18
4. 3. o«- *
*9
4- *3 O *• •'•
20
•4 r, 1.
21
•4 * O a «
22
.4 -i O •» "3
23
•4 »0" >• 3-
*4
t -a t -4 03-
25
3- O J -4
26
•3 O *• "4 - 1 ©
27
•3 *• x* O *4
28
•a O "4 4.
29
x. O -a '3 4'
*r\ 1
r
"\ ». Y . <•• A.
Digitized by
Google
\6z
PHENOMENA,
1882.
MEAN TIME.
Jan. i
h /
io © Perigee.
Apr. 1 3
h r
16 9 greatest HeL Lat. S.
3
1 S6d <J 5 49 N.
16
10 9 6 a $ 62U
1
1 9 in Q
18
12 9 <J ([ 9 1 52 s.
6 j Sup. <J ©
18
14 J? <J <[ Jj 3 38 S.
7
8 ^ Stationary.
19
7 9 6*2 9 153K
10
7 % Stationary.
19
16 % <j <[ - - - - % 040 S.
15
17 $ greatest Hel. Lat. S.
20
23 9 <J ^ 9 1 34 K.
18
16 9 6 <L 9 413S.
23 ? <J C $f 647 S.
u
21 <?<J <[ - - - - <J 617N.
»9
4 9 in Q
*3
21 <j> Stationary.
May 1
19 5 Sup. 6
*S
io J? DO
2
16 9 in 8
*}
«*?<$<[ - - - - *2 510 S.
3
l 9 9 6 *2 - - - - ? 2 "&
26
16 V 6 <L % 2 45 S.
4
3 9 4 <y 5 1 j K. r
29
19 c? <$ 1 c? S IS N.
^*»xi
J7 <y Aphelion. - Af**!/ ** " "
Feb. 2
5 (J Stationary.
4
20 9 6^ - - - - 9 059 N.
2
5 VD0
|
20 ^ <j©
3
17 $ in Q
6
11 ¥<SO
5
19 VDO
8 $ greatest elong. 18 12 £.
fa, .,i,y 1
6 $ Perihelion. -
6
II
1 Jj <J ^ - - - - J? 022 S.
6
10 9 Aphelion.
12
*i §6% - - - - ? 2l6 ^'
8
7 $? Perihelion. -
16
S*2<$( *2 3 < 6 &
12
7 9 Stationary.
18 9 <J <[ 9 647 S.
16
- © eclipsed, vis. at Green h .
12
17
13 V<J(( V ° °
4 9 <S C § 138S.
17
13 9 greatest Hel. Lat. N.
l8
14 9 greatest Hel. Lat. N.
18
4 ?<*<[ $ JJi*',
20
12 9 Sap. <J©
18
13 $ <5 <r 9 245 n.
21
22 $ Inf. <J©
22
3 lg[ Stationary. '
22
8 *? 6 <[ ^ 4 38 S.
22
12 & 6 C <J 646 k
a
4?H % * 7S.
ruutt 29
18 9 Perihelion. -
8 #6 <L <J 5" N.
29
« *<JO
28
22 9 greatest Hel. Lat. S.
June 1
10 9 greatest elong. *3 *7 ^
Mar. 6
4 9 Stationary.
16 W^0
4
20 IjlDO
6
10
1 $ in 8 . c
18 **( 1? 258 &
8 % 6 (T • V 037*
H
2 9 in 5
12
x 7
SNI. $ 6 * S.
«4
19
16 9 6 d 9 5 47 S.
U
14 9 Stationary. . ..
14 $<J<T ---- ? J4 J;
20
5 © enters <y>, Spring comm 8 .
20
18 g greatest elong. 2744 W.
17
6 ^<J<[ cJ 650N.
21
22 Tj & a - . - - T? 4 5 S.
20
22
20 V 6 C ----!(. 1 23 S.
P. ,r« 20
6 9 Aphelion. j
. 24
6 J Aphelion.
20
16 9 greatest Hel. Lat N. %
26
10 J <J I J 5 39 N.
21
1 ©enters®, Summer comm •,
A 30
18 <J greatest Hel. Lat. N. . ,
27
18 9 Inf. <J © '
Apr. 1
J 7 (JD0 "***" O^ffr*
July 3
9 © Apogee. I
- 9
ft Perihelion J € *^ : «***■*««««
{,*•*« '* **■ ,# ' *'*
9
9 Stationary. !
— ~~
PHENOMENA
, 1882.
463
MEAN TIME.
July 10
10
12
3
5 *2 6 <L I? 2 38 S.
15 § greatest Hel. Lat. S.
2 !£<$<[ ----If 1 14 N.
S $?<*<[ ? 052 s.
7 9 6<[ 9 657 N.
Oct. 13
13
ii
1$6<L ?
11 <J in 8
16 9 4 <[ $
11 $ <J a Scorpii ^
/
2 6 S.
115 N.
611 S.
9 N.
'9
»9
*7
29
29
<J tf C <? 6 16 N.
17 5 greatest elong. 20 5 W.
1 <? 6 # c?o6N.
15 ? in Q
21 9 6# $ 017 N.
19
22
»S
27
30
6 % Stationary.
16 9 Inf. 6 O -
14 9 in 8
14 ^ «5 € ^
2 6 S.
3 N.
Aug. 1
1
8
11
*3 96c? $05N.
5 J Perihelion.
14 *2 <J <[ T? 2 19 S.
18 % 6 <[ --•-!{. 1 51 N.
3 VDO
3 1
Nov. 1
I
5 9 Perihelion.
5 9 Stationary.
- 9 at greatest brilliancy.
13 ? greatest elong. 18 55 W.
22 9<J<[ 9 427 N.
13
13
If
12 5 <j <[ g 7 6 N.
13 § greatest Hel. Lat. N.
12 $ Sup. <$
18 9 in 8
18 <J 6 <L <J S 4 N.
9
9
10
11
•3
11 9 greatest Hel. Lat. N.
17 V<f©
- © eclipsed, in vis. at Green' 1 .
4 <J 6 <[ <? 56 S.
2 9<J <[ 9" 717 S.
11
22
28
Sept. 2
10 9 6 (L 9 3 48 N.
io I? Q0
8 0) Stationary.
8 5 4$ 5 018 N.
22 ^ 6( ^ 24S.
Hi
Dec. 2
15 *ifO
21 9 Stationary.
2I^<Jd - - - - lj
L i2 %6 a %
23 9 in 8
2 18 S.
252 N.
i
7
11
14
8lt<$<[ V 2 26 N.
J in 8
23 ^ Stationary.
8 #<$©
4 ? <S <[ ----9 210N.
i
6
6
Cgym8
7 9 <J J 9
— Transit of 9 across
5 9 Inf. 6
21 9 in S
*3 9" 6 ? ?
6 N.
O's disc.
1 12 S.
11
16
20
13 <? <$ C <? 3 20 N.
5 9 6$ -9 i*8S.
5 j Aphelion.
3 9 Aphelion.
4 ^ <$ a Virginia -& 12 S.
9
9
10
10
J 3
16 9 <J <[ 9
19 5? 6 <L 9"
3 <?<JC <?
13 <?<*©
4 9 Aphelion. - &.;>
1 14 S.
251 S.
3 1 S.
20
22
22
26
28
l 9 9 6 c? 5 221 S.
16 enters £:, Antumn comm*.
*3 *D0
1 9 greatest elong. 4631 E.
5 $ greatest elong. 2545 E.
16
17
21
18 9 <j <? 9
19 ¥no
17 9 Snp. <J©
* *2 <5 <t *2
038 S.
2 21 s.
L 3 °
'Oct. 2
6
11
11
6 T? 6 $ *2 1 59 S.
20 1(({([ - - - - % 2 51 N.
14 J greatest HeL Lat S.
1 § Stationary.
14 ? greatest HeL Lat S.
21
it
28
30
10 © enters yf, Winter comm".
15 % 6 <t % 2 38 N.
3 $ Stationary.
15 ijj Stationary.
22 © Perigee.
Digitized by VjiOOQlC
64 OPPOSITION OF MARS, 1881-2-
STARS TO BE OBSERVED WITH MARS, NEAR THE OPPOSITION, I
DECEMBER 26, 1881. '
Jan. 1
10
11
12
i36Tauri
Mars- -
B.A.C. 209
i36Tauri -
Mars- - -
B.A.C. 209
i36Tauri -
Mars- - -
B.A.C. 209
i36Tauri
Mars- - -
B.A.C. 209
i36Tauri -
Mars- - -
B.A.C. 209
i36Tauri -
Mars- - -
B.A.C. 209
i36Tauri -
Mars- - -
B.A.C. 202
i36Tauri -
Mars- - -
B.A.C. 202
i36Tauri -
Mars- - -
B.A.C. 202
i36Tauri -
Mars- - -
B.A.C. 202
i36Tauri -
Mars- - -
B.A.C. 202
i36Tauri -
Mars- - -
B.A.C. 202
i36Tauri -
Mars- - -
B.A.C. 202
i36Tauri -
Mars- - -
B.A.C. 202
5
N.
«i
5
S.
«i
5
N.
6*
5
S.
64
5
N.
6J
5
S.
5
N.
5
s.
7
5
N.
5
N.
5
S.
7
5
N.
7
5
5 45 57 #
6 15 2V
6 22 58*
5 45 57
6 13 4
6 22 5
i 45 s r
6 12 6*
6 22 58'
a
N.27
27
14
28
44
N.27
95
3
*5
44
N.27
35
27
16
28
45 57'
10 30'
22 58'
4S 57'
857 '
22 58'
45 57'
7 «5'
22 58
45 57'
5 56
11 O'
5 45 57
6 4 30
6 11 o
636
6 11 o
6 1 46
6 11 o
5 45 57
6 o 28
6 11 o
45 57
59 *3
11 o
45 57
1
o
58
11
45 57
56 52
II o
45
73
17
45
17
18
t S
•84
46
93
05
•46
:S
46
ll
46
:a
46
08
•07
•46
17
•07
46
08
46
82
08
N.27
3
N.27
28
N.27
*7
28
N.27
27
27
N.27
27
27
N.27
27
27
N.27
27
*7
N.27
27
27
N.27
27
*7
N.27
27
27
N.27
27
*7
34 53*8
4 i*5
17 9-6
34 53*8
5 "'3
17 9*7
34 53 8
6 33-0
17 9-7
34 53*9
7 34-o
17 9-7
34 53*9
8 25*2
17 9-8
34 53 '9
9 7"3
17 9-8
34 53*9
9 4°3
15 II'O
34 54-o
10 4-7
15 II'O
34 54-o
10 20'8
15 n*o
34 54*o
10 29*1
15 II'O
34 54- 1
10 29*9
15 ii'i
34 54' 1
10 23*7
15 ii'i
34 54
10 ii'
15 11
34 54'
9 5*'
IS 11*2
0*67
90
0*67
9*0
0*67
89
0-67
8'9
o-66
89
o-66
8-8
o*66
8-8
0*65
8-7
0-65
8-7
0*64
86
0-64
86
0-64
8-5
0-63
8-4
0*63
8'4
Digitized by
14-4
14-4
H'3
142
14- 1
14- 1 1
14*0
139
!
13*8
13-8
137
13-6
x 3'5
13*4
o
OPPOSITION OF MARS, 1 88 1-2. 46s
STARS TO BE OBSERVED WITH MARS, NEAR THE OPPOSITION,
DECEMBER 26, 188 1.
Month
and
Day.
Jan. 15
16
*7
18
19
20
21
22
23
24
*5
26
27
28
Star.
36TL
Mars
B.
"auri - -
_„T8- - - -
.A.C. 2023
'auri - -
rs- - - -
..C. 2023
C36TL
Mars
B.A,
[36Tauri
Mars
B.A.C. 2023
(36Tauri - -
Mars- - - -
B.A.C. 2023
[36Tauri - -
Mars- - - -
B.A.C. 2023
i36Tauri - -
Mars- - - - •
B.A.C. 2023
i25Tauri - -
Mars- - - -
B.A.C. 2023
i25Tauri - -
Mars- - - -
B.A.C. 2023
i25Tauri - -
Mars- - - -
B.A.C. 2023
i25Tauri - -
Mars- - - -
B.A.C. 2023
i25Tauri - -
Mars- - - -
B.A.C. 2023
i25Tauri - -
Mars- - - -
B.A.C. 2023
i25Tauri - -
Mars- - - -
B.A.C. 2023
i25Tnuri - -
Mars- - - -
B.A.C. 2023
5
N.
5
N.
5
S.
7
5
N.
7
5
s.
7
6
N.
7
6
S.
7
6
N.
7
6
S.
7
6
N.
7
6
S.
7
6
N.
7
6
Apparent
Bight Ascension.
h m a
45 57-46
55 47*57
11 0*08
45 57*46
54 45-7I
11 0*08
45 57-46
53 47-3$
11 0*08
45 57'45
52 52-43
11 0*08
45 57*45
52 113
11 0*08
45 57*45
51 13*44
11 o-o8
32 28*17
50 29-39
11 0*07
32 28*16
49 49* 01
11 0*07
32 28*15
49 12*30
11 0*07
32 28*15
48 39*26
11 0*07
32 28*14
48 9*89
11 0*07
32 28*14
47 44 - i5
11 0*06
32 28*13
47 22-05
11 0*05
32 28*12
> 47 3'53
6 11 0*05
Declination.
N.2
2
2
N.2
2
2
N.2
2
2
N.2
2
2
N.2
2
2
N.2
2
2
N.2
2
2
N.2
2
2
N.2
2
2
N.2
2
2
N.2
2
2
N.2
2
2
N.2
26
2
N.2
26
2
o 1
34
9
15
15
1
34
7
is
J J
is
n
15
49
5
is
49
4
15
49
3
is
49
2
15
49
1
IS
49
o
15
49
59
IS
4«
IS
H
54-2
27*4
11*2
54-2
57*3
11*2
54- 3
22 '4
11*2
54- 3
42-9
"•3
54*3
59"4
113
54*4
12*2
11*3
44*4
214
ii'4
44'4
27-9
n-4
44*5
318
u-4
44*5
334
n-4
44*5
330
"•5
44*5
jx-i
US
44'5
27-7
115
44'S
23*1
n-6
Semidiameter
in
E.A. Dec.
■
0*62
o'6i
o'6i
o'6i
o'6o
o-6o
0-59
0-58
0-58
058
0-57
0-57
0*56
o"55
30
(NAUTICAL AXMANAC, 1 882.)
Digitized by
8-3
82
82
8-i
81
80
7'9
7'8
7-8
7*7
7-6
76
7*5
7*4
=
Hor.
Par.
!3'3
13*2
I 3 *I
13*0
12*9
12*8
12*6
12*5
12*4
12*3
12*2
12*1
12*0
11*9
2 H O
J
466 OPPOSITION OF MARS, 1 88 1-2.
STARS TO BE OBSERVED WITH MARS, NEAR THE OPPOSITION,
DECEMBER 26, 188 1.
Month
and
Day.
Star.
Apparent
Bight
Declination.
Semidiameter
in
R.A. Dec
Jan. 29
3i
Feb. 1
10
11
i25Tauri - -
Mars- - - -
B.A.C. 2023
i25Tauri - -
Mars- - - -
B.A.C. 2023
i25Tauri - -
Mars-
BA.C. 2023
i25Tauri - -
Mars
BA.C. 2023 -
i25Tanri
Mars-
B.A.C. 2023 -
i25Tauri - - -
Mars- - - - -
B.A.C. 2023 -
25Tauri - - •
Mars- - - - -
B.A.C. 2023 -
25Tauri
Mars- - - - -
B.A.C. 2023 -
i25Tauri - - -
Mars- - - - -
B.A.C. 2023 -
i25Tauri
Mars- - - - -
BA.C. 2023 -
i25Tauri
Mars- - - - -
B.A.C. 2023 -
i25Tauri
Mars- - - - -
BA.C. 2023 -
i25Tauri
Mars- - - - -
BA.C. 2023 -
i25Tauri
Mars- - - - -
B.A.C. 2023 -
6
N.
7
6
S.
7
6
N.
7
6
N.
7
6
S.
7
6
N.
7
6
S.
7
6
N.
7
6
S.
7
6
N.
7
6
S.
7
6
N.
7
6
S.
7
6
N.
7
h m ■
5 .32 28*11
5 46 48-57
6 11 0*04
5 32 28*10
5 46 37*13
6 11 0*04
5 32 28*09
5 46 29-17
6 11 0*03
5 32 28*08
5 46 2467
6 11 0*02
5 32 28*07
5 46 23*56
6 11 0*01
5 32 28*06
5 46 25*81
6 11 0*00
5 32 28-05
5 46 31*37
6 10 59*99
5 32 28*04
5 46 40-18
6 10 59*98
5 32 28*02
5 46 52*20
6 10 59*98
5 32 28*01
5 47 7 # 36
6 10 59*97
5 32 28*00
5 47 25-62
6 10 59*95
5 3* *7 - 98
5 47 46-93
6 10 59*94
5 3* *7'97
5 48 11*22
6 10 5993
5 32 27*96
5 48 38-46
6 10 59*92
o / tl
N.25 49 44-5
26 57 17-7
27 15 n*6
N.25 49-44*6
26 50 11-5
27 15 n*6
N.25 49 44*6
26 55 5*o
27 15 n*7
N.25 49 44*6
26 53 58*1
27 15 n*7
49 44'6
52 51*0
27 15 11*7
N.25 49 446
26 51 43*9
27 15 ii*8
N.25 49 44*6
26 50 36*6
27 15 ii*8
N.2
2
49 44*7
49 29*3
iy ii*8
49 44'7
48 22*1
15 n*9
»7
N.25
26
27
N.25 49 44*7
26 47 15*0
27 15 11-9
N.25 49 44 '7
26 40 7'9
27 15 119
"a
*7
27
49 44"7
45 09
15 12-0
49 44*7
43 54- 1
15 12*0
N.25 +9 ++'7
26 42 47- 3
27 15 I2'0
0-55
OSS
0-54
0-53
0-53
0*52
0*52
051
0-51
0*50
0*50
0-49
0-49
0-48
7*4
7'3
T*
7i
70
7*0
6*9
6*9
6-8
6-7
6- 7
6 6
6-6
6s
Digitized by
Goo
o
SATURN'S RING, 1882.
467
ELEMENTS FOB DETERMINING THE GEOCENTRIC POSITION,
MAGNITUDE, AND APPEARANCE OF SATURN'S RING.
Mean Noon.
P
0'
b'
a"
b"
188
1.
<
> /
♦
*
H
«
Dec.
15
+ I4-3
44-04
-13-71
29'28
— 9-12
1882.
Jan.
4
17-9
l6*I
42 63
13-23
28-35
8-8o
—
*4
41*12
12-89
27-34
8-57
Feb.
'3
+0
90
39-70
38-50
12-72
26-40
25-60
8-46
Mar.
5
—
28
12-71
I2-85
845
—
*5
184
37-60
25-00
8-55
April
H
36-6
37-04
13-11
24-63
8-72
May
4
564
36-83
13-48
24-49
8-97
—
24
I
16-5
36 97
1394
H'59
9-27
June
'3
I
35-8
3 r 4 o
H47
24-91
9*62
July
3
I
S3 1
38 28
15-07
25*45
IO'02
—•
*3
2
T*
3939
40-76
15-72
26*20
10-45
Aug.
12
2
17-1
i6-39
27*10
10*90
Sept
1
2
2I - 7
42-27
1703
28-11
11-32
11-69
—
21
2
20'8
43-77
17-57
29*11
Oct
11
2
14-4
45-04
17-93
18-04
29-95
1193
—
3i
2
*'J
45-85
30-49
30*60
u-99
11-87
Nov.
20
I
50-8
46-01
17-85
Dec.
10
I
38-8
45-48
r n 3
30*24
u-59
—
30
I
30* 1
44-38
1687
29-51
11-22
1883.
Jan.
19
— I
26-7
42-93
—16-32
28-55
— 1085
-18 8-7
18 4*9
18 l6'2
18 41*2
19 16-8
19 59-1
20 44*0
21 28*2
22 8'
22 43
23 11 1
23 jr
23 42
*3 45'
23 40-
23 27*
23 9
22 49'
22 31
22 20*8
—22 20*2
-19 46-4
20 0-0
20 13-5
20 26*7
20 39'o
20 52*8
21 5*6
21 l8'I
21 30*5
21 42*7
21 54-7
22 6*5
22 l8*I
22 29*5
22 40*7
22 51*7
23 2*6
23 13-1
23 23-5
23 33-6
-23 43-5
p denotes the inclination of the Northern semi-minor axes of the Rings to the
circle of Declination ; + East, — West.
a' the apparent outer major axis of the outer Ring.
b f — — — outer minor axis of the outer Ring; + North surface visible,
— South surface visible.
a" inner major axis of the inner Ring.
b" ___ inner minor axis of the inner Ring.
/ the elevation of the Earth above the plane of the Ring, as seen from Saturn ;
+ North, — South.
r the elevation of the Sun above the plane of the Ring, as seen from Saturn;
+ North, — South.
ILLUMINATED PORTION OF THE DISCS OP VENUS AND MARS.
1882.
Jan. 15
Feb. 14
Mar. 15
Apr. 15
Ventjs.
0*989
I -ooo
0-996
0-974
Mars.
0*982
0*930
0*903
0*901
1882.
May 15
June 15
July 15
Aug. 15
Venus.
wt
0*<
O-805
0*779
0-674
Mars.
0*912
0*929
0*948
0*966
1882.
Sept. 15
Oct. 15
Nov. 15
Dec. 15
Venus.
o-545
0-379
0*127
0*028
Mars.
0*981
0*992
o # 999
i* 000
The numbers in this Table are the versed sines of the illuminated portion of
the Discs, the apparent diameters of the planets being taken as unity.
2 h 2
CT
68
TIDES, 1882.
MEAN TIME OF HIGH WATER AT LONDON BRIDGE.
JANUARY.
FEBRUARY.
MARCH.
APRIL.
MAY.
JUNK.
h m
35
1 22
2 9
2 45
3 20
3 56
4 28
5 o
i 3 l
6 46
7 33
8 33
9 Si
11 8
47
1 40
2 27
3 13
3 59
4 45
5 *7
6 12
6 58
7 53
9 2
10 28
11 48
o 21
h m
12 5
13 O
13 48
14 28
15 i
15 38
j6 11
16 44
17 15
17 48
18 26
19 10
20 1
21 10
22 30
*3 45
12 18
13 14
14 4
14 50
•5 35
16 22
17 7
17 50
18 34
19 24
20 23
21 44
23 9
12 50
h m
I 14
1 S 6
2 31
3 *
3 33
4 3
4 33
5 5
5 35
6
6
748
9
10 34
11 56
29
1 22
2 II
* 55
3 37
4 20
5 3
I 45
6 29
7 19
8 24
9 53
11 20
h m
13 35
14 15
14 46
15 1
15 4:
16 19
16 49
17 19
17 50
18 30
19 17
20 22
21 49
23 14
12 58
13 48
14 33
15 17
15 59
16 42
17 23
18 6
18 52
19 50
21 4
22 38
23 57
53
1 34
2
2 3
3 7
3 35
4 I
4 3 6
5 7
5 4*
6 25
7 21
8 35
10 12
11 33
7
1 2
1 49
2 32
3 i4
3 56
4 38
5 19
6 53
7 53
9 12
10 40
11 47
o 14
h m
12 27
13 14
13 53
14 24
14.54
15 21
15 49
16 21
16 52
17 24
l l 3
18 52
19 56
21 23
22 55
12 36
13 26
14 9
14 S3
15 37
16 18
17 o
17 39
18 26
19 20
20 29
22 O
23 l6
12 39
h m
59
1 3 1
2 6
2 36
3 38
4 12
4 47
5 26
6 13
I "
8 24
9 53
11
34
1 24
2
2 51
3 34
4 17
4 58
5 40
6 29
7 22
8 26
9 46
10 53
11 49
o 13
h m
13 17
13 51
14 21
14 51
15 22
15 55
16 30
17 6
1748
18 40
19 46
21 7
22 32
23 40
12 II
12 59
13 46
14 3°
15 13
15 56
16 37
17 19
18 4
18 54
19 53
21 4
22 22
23 23
12 35
h m
54
1 32
a 5
2 39
3 14
3 53
4 34
V 6
I 6
8 12
9 29
10 38
11 42
10
1 2
1 5i
2 33
3 17
3 59
4 4i
18
49
I
40
9 So
10 52
11 47
o 11
o 53
h m
13 12
13 49
14 22
H 57
15 34
16 13
16 54
17 41
18 34
19 39
20 50
22 5
23 11
12 35
13 28
14 11
14 55
15 38
16 20
17
17 39
18 26
19 14
20 9
21 14
22 21
23 21
12 33
13 16
li m
1 37
z *Z
2 58
13 5S
14 3&
15 17
3 4o
4 *3
5 10
16 I
16 46
17 33
§
59
55
54
8 59
10 9
11 15
45
1 36
2 20
3 4
3 44
4 22
4 59
5 35
6 16
6 57
7 45
8 39
9 47
10 51
11 54
21
1 9
*4
25
I
21 36 j
22 40;
23 48
12 19:
13 11 j
14
14 44
15 22
16 4
16 40
17 17
17 54
18 36
19 20
20 11
21 9
22 22
23 25
12 46
*3 35
If the time of High Water be required, according to the civil mode of reckoning:
• 1. For the Morning Tide : — With the day of the month preceding the given date,
take the time opposite thereto from the 2nd column of the month, and diminish it by
12 hours.
2. For the Afternoon Tide : — With the given date, take the time opposite thereto
from the 1st column of the month.
"=
TIDES, 1 88a.
469
MEAN TIME OF HIGH WATER AT LONDON BRTDGE.
JULY.
AUGUST.
SEPTEMBER.
OCTOBER.
NOVEMBER.
DECEMBER.
Ji m
1 57
2 41
3 26
4 13
5 °
5 47
6 37
7 *9
8 30
9 40
10 54
34
1 26
2 10
2 49
3 25
4 ©
4 3;
5 4©
h m
14 19
15 5
15 49
16 36
17 22
18 II
'9
'9 5
21 2
22 17
23 30
12 4
13 o
13 48
14 29
'5 7
'5 43
16 16
16 50
17 23
17 57
6 15 18 35
6 56 19 20
20 13
7 44
8 47
10 s
11 19
50
1 40
26
21 24
22 42
23 S2
12 24
13 l6
'4 5
14 49
h m
3 10
3 56
4 4i
5 26
6 11
7 «
8 o
10 36
11 51
o 24
I 14
« 55
2 29
3 4
3 33
4 5
4 37
5 ©
I 37
6 17
2
2
9 24
10 49
29
1 19
* 4
2 50
3 35
h m
'5 34
ID 20
>7 4
17 49
18 37
19 30
20 33
21 ss
23 16
12 49
13 35
14 12
14 48
15 18
15 50
16 20
16 51
17 22
19 31
20 41
22 9
23 28
12 2
12 54
h m
4 19
5 46
6 35
7 32
8 45
10 17
11 32
o 4
53
1 33
* 5
» 35
3 5
3 34
6 32
7 3 6
852
10 25
11 36
o 8
57
1 43
13 45 2 26
14 28 3 12
iS "I 3 54
*5 57
h m
16 41
17 24
18 10
19 2
20 7
21 31
22 57
12 31
13 13
13 50
14 21
14 49
15 20
15 50
16 21
16 53
17 24
18 8
19 1
20 12
21 44
23
12 33
13 21
14 4
14 50
15 33
16 17
h m
4 38
5 22
6 10
8 16
9 44
10 58
11 57
o 22
1 2
1 35
2 6
1
38
4 10
4 4©
5 »5
6 14
7 16
8 33
9 58
11 10
34
1 20
2 6
2 51
3 34
4 19
5
h m
16 59
17 46
18 37
19 40
20 59
22 23
23 30
12 42
13 l8
13 52
14 20
14 52
15 22
15 55
16 28
17 I
1748
18 42
'9 53
21 10
22 35
23 40
12 8
12 56
13 41
14 27
15 13
'5 57
16 39
17 24
h m
5 48
6 39
7 39
8 41
10
11 12
b m
18 12
19 7
20 12
29
40
23 38
24
1 3
1 36
2 10
2 42
3 17
3 54
4 3*
6 4
7 »
8 9
9 *7
10 37
11 40
8
1 o
1 48
2 34
3 20
4 3
4 44
5 *4
12 2
12 43
13 20
13 54
14 26
15 o
15 3 6
16 12
16 52
1738
18 31
19 34
20 45
22 1
23 9
12 34
13 25
14 II
14 58
15 41
16 23
17 t
17 48
h m
6 59
7 5o
8 53
10 4
11 7
25
1 6
* 47
2 23
3 *
3 4i
4 24
5 8
HI
7 44
851
11 16
© 47
1 39
2 2,
3 48
4 *7
5 3
I 3
6 1
h m
18 32
19 24
20 20
21 32
22 37
23 36
12 O
12 4
13 2
14 5
1442
15 21
16 2
16 45
17 30
18 21
19 15
20 17
21 28
22 39
23 49
12 19
13 13
14 3
14 46
15 26
16 8
16 44
17 21
17 58
18 37
Example : — Required the Mean Time of High Water at London Bridge, for the
Morning and Afternoon of July 14, 1882.
1. Opposite the day preceding, viz. 13, and in the 2nd column, under July,
is I3 h o m , which, being diminished by I2 h , gives i h o m , for the Time of High
Water in the Morning.
2. Opposite the given date, and in the 1st column, under July, is i h 26%
which is the Time of High Water in the Afternoon.
Digitized by
Google
470
TIDES.
TIME of HIGH WATER, on the FULL and CHANGE op the MOON,
AT THE FOLLOWING PORTS AND PLACES.
Place.
Situation.
Time of
High
Water.
Plage.
Time of
Situation. Jt$L
Aberdeen -
Aberdovey -
Aberystwith
Achill-beg -
Agnes (St.) -
Aldborough -
JAlderney
[Amlwch Port
•Antwerp
Arran Isle -
'Arundel Bar
|Ayr Point -
Ballyshannon Bar
Balta- - - -
Baltimore - -
Banff- - - -
iBantry Harbour
Bardsey Island -
Barmouth - -
Barnstaple Bridge
;Beacby Head -
•Beaumaris - -
jBelfast - - -
jBerwick - - -
•Blakeney Bar -
Blyth - - -
Bolt Head - -
jBordeaux - -
| Boston - - -
| Boulogne - -
iBrehat - - -
Brest- - - -
Bridgewater Bar
j Bridlington - -
Bridport - - -
Brielle - - -
Brighton - - -
Bristol - - -
,Brouwer8haven -
Burntisland - -
i
Caermarthen Bar
'Caernarvon - -
.Calais- - - -
.Caldy Road - -
Calf of Man- -
Cancale - - -
iCantyre (Mull) -
Cardigan- - -
jCarlingford Bar
.Chatham - - -
Scotland - - -
Wales - - -
Wales - - -
Ireland - - -
Scilly Isles - -
England - - -
English Channel
Anglesea - -
Belgium - - -
Scotland - - -
England - • - -
Isle of Man - -
Ireland - - -
Shetland - - -
Ireland - - -
Scotland - - -
Ireland - - -
Wales - - -
Wales - - -
England -
England •
Wales -
Ireland -
England -
England -
England -
England -
France -
England -
France -
France -
France -
England -
England -
England -
Holland -
England -
England -
Holland -
Scotland -
h m
I O
8 o
7 3*
5 H
4 3°
io 45
6 46
io 30
4 *5
11 15
11 35
11 7
3
11
7
2
2
Wales
Wales
France
iS
45
2
2
47
40
4i
28
11 20
10 32
10 4
6
IS
30
3 IS
5 45
6 50
7 o
11 25
5 5i
3 47
6 50
1 39
o
15
*3
o
24
- 5
- 9
11 49
Bris. Ch., Wales 5 40
St. Geo. Channel 11 17
France - - - 6 20
Scotland- - - 10 35
Wales - - - 7 1
Ireland - - -11 o
England -
- 1
Chausey Islands -
Cherbourg - - -
Chichester - - -
Christchurch - -
Clear Cape - - -
Coquet Road - -
Cordouan - - -
Cork, Penrose Quay
Cornwall Cape - -
Cowes, West - -
Cromarty - - -
Cuckolds Point - -
Cuxhaven - - -
Dartmouth - - -
Deal
Dee River (Chester)
France -
France -
England -
England -
Ireland -
England -
France -
Ireland -
England -
Isle of Wight 10
Scotland- - 11
River Thames 1
Germany
England -
England -
England -
- 11
• 9
- 4
- 3
- 3
- 4
4
h m
6 9
7 49
3°:
O,
- I
- 6
-11
- o
:i
- - II
- - 3
- - 11
- Isle of Man - 11
Devonport Dock Yard England
Dielette - - - - France «
Dieppe - - - - France •
Dingle - - - - Ireland
Donaghadee - - Ireland <
Donegal Harbour - Ireland
Douglas Harbour
Dover - - - - England - -n
Downs - - - - England - - 11
Dublin Bar - - • Ireland - -11
Dunbar - - • - Scotland - - 2
Duncansby Ness - Scotland - - 10
Dundalk - - - - Ireland - • 10
Dundee - - - - Scotland - - 2
Dungarvan - - - Ireland - - 5
Dungeness - - - England - - 10
Dunkerque - - - France - - 1 x
Eddystone - - - English Chan.
Exmouth - - - England - -
Eyemouth - - - Scotland - - 2
Falmouth • - - England - - 4
Fecamp - - - - France - - 10
Flamboro* Head - England - - 4
Flatholm ... England - - 6
Flushing- - - - Holland - - o
Fowey - - - - England - - 5
Galloway (Mull) - Scotland - - 11
Galway - - - - Ireland - - 4
Gibraltar (Old Mole) Spain - - z
Glasgow, Port - - Scotland- - o
Glenan Islands - • France - - 3
Goeree (West Gat.) Holland - - 1
Granville - - - France - - 6
Gravelines - - - France - -iz
o
o
H
58
35
4 £
* 6 i
45
s
16
15
7
43
40
6
5i
13
18
12
12
'5
I2 i
14
56
32.
12
45
55
*5:
21
57'
44
30
54,
54!
14
15,
351
20
18
12'
45 1
'I
Digitized, by
Google
TIDES.
471
TIME op HIGH WATER, on the FULL and CHANGE of the MOON,
AT THE FOLLOWING POBTS AND PLACES.
Placb.
Situation.
Time of
High
Water.
Placb.
Situation.
Time of
High
Water.
h
England - - i
Scotland - - o
England - - 5
English Channel 6
River Thames 1 1
England - -
England - -
England - •
France - - -
German Ocean
Holland - -
Gravesend -
Greenock - -
Grimsby - -
Guernsey Pier
Gunfleet Sand
jHarUepool -
Harwich - -
Hastings - -
[Havre - - -
Helgoland
Hellevoetsluis
Hollesley - - - England
Holyhead - - - Wales -
Holy Island - - England
IHonfleur - - - France -
Horn Point - - Jutland
Howth Harbour - Ireland -
Hull -.-- England
Humber River Ent. England
lie de Bas - - France -
Ipswich - - - England
'Jersey (St. Helier) English Channel 6
3
o
10
9
ii
2
II
10
2
9
i
ii
6
5
4
o
Kenmare River -
Kingstown • -
JKinsale - - «
Kirkcudbright •
La Hougue Harb
Land's End - •
Leith - - - «
Lerwick - - ■
Lewis Islands ■
Limerick - - «
Liverpool - - •
London Bridge •
Margate
Ireland - -
Ireland - -
Ireland - -
Scotland - -
France - - -
England - -
Scotland - -
Shetland - •
Scotland - -
Ireland - - -
England - -
River Thames
England
3
ii
4
ii
8
4
2
10
6
6
ii
i
ii
m
10
8
36
37
40
28
6
53
5*
33
30
30
11
30
29
44
9
26
49
35
29
5*
10
43
10
42
30
*7
30
11
16
Penzance - - - - England -
Peterhead - - - Scotland -
Plymouth (Breakwtr.) England -
Portland (Breakwater) England -
Port Patrick - - - Scotland -
Portsmouth Dock Yd. England -
Ramsgate Harbour - England -
RathlinL, Church Bay N.C. of Irel.
Rye Bay - - - - England -
Salcombe - - - - England -
Saltees - - - - Ireland - -
Scalloway - - - Shetland -
Scarborough- - - England -
ScillyIsknds(St.Mary)England -
h m
4 3°
o 34
5 37
7 1
11 10
11 41
11 39
7 56
11 20
41
40
30
11
18
SelseaBill - - -England - 11 45
Shannon Mouth - - Ireland - - 4 oj
Sheephaven - - - Ireland- - 5 32 j
Sheerness Dock Yard England - o 37
Shields (North) - - England - 3 23
Shoreham Harbour- England -
Skerries - - - - N. C. of Irel.
SligoBay,MullaghmoreIreland
Milford Haven Ent. Wales - - -
Minehead - -
Montrose - -
Morlaix Road
Needles Point
Newcastle
Newhaven
Newport -
Nieuport -
Nore Light
Orfordness
Ostend
England
Scotland - -
France - - -
Isle of Wight-
England - -
England - •
Wales - - -
Belgium - •
River Thames
England - -
Belgium - -
iPembroke Dock Yd. Wales -
iPentland Firth - Scotland
5
56
H
*5
53
46
23
5i
10
18
30
15
*5
12
o
Southampton
Southwold - -
Spithead - - -
Spurn Point - -
St Helens Road
Stives - - -
StMalo - - -
Stromness - -
Sunderland - -
Swansea Bay
TayBar - - -
Tees River Bar -
Terschelling, West -
England -
England -
England -
England -
England -
England -
France - -
Orkneys -
England -
Wales - -
Scotland -
England -
Holland -
Texel (outside shoals) Holland
Torbay
Tralee Bay -
Tynemouth Bar
Waterford Bridge
Wexford - -
Weymouth -
Whitby - -
Wick - - -
Wicklow - -
Wisbeach - -
Wranger Oog
Yarmouth Roads
Youghal - - -
England -
Ireland - -
England -
Ireland - •
Ireland - -
England -
England -
Scotland •
Ireland - -
England -
E. Friesland
England -
Ireland - -
11 34
6 15
5 18
10 30
10 20
11 20
26
o
44
5
o
22
10
6
45
40
30
o
3
20
6
21
2
45
11 22
10 29
7 30
12 o
9 15
5 14
Digitized by
Ox5
o
47*
MOONS LIBRATION,
1882
•
Mean
MOON'S EQUATOR.
Moon's
Mean
Motion of
Inclination
Ascending
on th<
Node
Ascending Node
Noon.
to the
Earth's Equator to
on the
Earth's Equator.
Ascending Node
on Ecliptic.
« Earth's Equator.
Longitude.
Longitude.
1
A
8'
K
9
diff.
/
ditt
, diff.
t
1
Jan. I
II
24 r 3 +o ; 7
2 * 5 2 -■
64 4*2
63 41*0"
-23*2
23*2
23*1
3 28-3 '
J J — 0*0
3 2 7"4 .
3 *•* n
3 *55
61 59*2
i93 45'i
I
©• 1
13 10-6
26 21*2
39 31-8
1 2I
3 1
24 6*8
24 7*6
0*8
63 17*8
62 54*7
325 30*9
97 168
2
3
0-7
23*2
1*0
4
Sa 4a-3
Feb. 10
24 8*3
o*8
62 31*5
232
23-1
23*2
3 2 *'a ,.
229 2*6
5
65 52 9
I 20
24 9*1
0-7
0*8
62 8*3
3 »3-S ,.
48*4
6
79 35
Mar. 2
24 9*8
61 45-2
3 aa'5 ro
132 34*3
204 20*1
1
92 14- 1
I Iz
24 io*6
6f 22'0
3 "'S
105 24-7
0-7
23*1
1*0
9
118 353
22
Apr. i
ii
24 ii*3
24 12*0
24 12-8
o*7
o-8
60 58*9
60 35*8
60 12*7
23*1
23-1
23-1
3 *o-S ,.
3 T 5 11
3 l8 *4 ,.
56 5*9
167 51-8
299 37-6
10
;
131 45-8
Bonn. 1
i 1
21
24 13-5
0*7
59 49'6
3 «7*3
71 235
1
32*9
0-7
23-1
2
I 59
May I
24 14*2
59 *6'5
23-1
23*1
3 16**
203 93
3
I 38-8
II
24 14*9
24 15*6
0*7
59 3'4
58 40-3
3 l 5'* !.!
334 syi
106 41 '0
4
x 11-8.
21
°"7
o*8
3 H'o ...
5
a 44*7;
3 1
24 16*4
58 17-2
23*1
3 ""9
238 26-8
6
3 176
0-7
23-1
1
3 5o-6j
June io
24 17*1
57 54'i
23*0
231
23*1
3 ll 'l ,-,
3 w>*6
10 12*7
4 *\y
4 56-5
20
24 17*8
24 i8*4
o"7
0*6
57 31*1
141 58-5
9
3°
57 8-o
3 3'4 !.!
3 8-2
273 44-3
10
5 a94
July io
24 19-1
°"7
56 44-9
45 3°**
11
6 »- 4 j
0-7
23*0
12
5 J I-1|
20
24 19*8
0-7
56 21*9
23'0
23-0
23-0
3 6 '9 ,.,
177 16*0
13
30
24 20*5
55 58*9
3 3'7 ...
309 i*8
14
7 4***
Aug. 9
24 21*2
°'7
0-7
55 35 # 9
3 +'S ,..
80 47-7
11
19
24 21*9
55 "'9
3 3*2 J
212 33*5
8 471
o*6
23-0
:?
9 20'0
29
24 22*5
54 49'9
54 26-8
231
23*0
23-0
3 2 '° ,.
344 i9"4
no 5*2
9 S^-9
Sept 8
24 23*2
0*7
3 °'7 il
19
10 25-9
10 58-8
18
24 23*9
0*7
o-6
54 3'8
* 59*3 ..?
247 51*0
20
28
24 24*5
53 40-8
2 58'o J
19 36-9
21
II 31-8;
0-7
23'0
22
12 4-7
Oct 8
24 25*2
o-6
0-7
o-6
53 17*8
.
* S6-7 ...
151 22*7
23
12 37-6
18
24 25*8
5* 54'9
22*9
23*0
22*9
* 55 - 4 . '
283 8*5
24
13 io*6
28
Nov. 7
24 26-5
24 27*1
52 3i*9
52 9-0
* 54*o ..T
2 52-6 *
54 54*4
186 40*2
ft
[inutes.
/ '
o*6
22*9
10
O 5-5!
*7
24 27*7
51 46*1
23*0
22*9
23*0
a S>'3 ...
318 26*1
20
ii-oj
27
24 28*4
0*7
o*6
51 231
2 *S!'9 . *
a 48-5 ..;
a 47*i *
90 11*9
3°
O 16-5
Dec. 7
*7
24 29*0
24 29*6
o-6
51 0*2
50 37*2
221 57*7
353 43'6
40
r
O 22'0
O 27*5!
o*6
22*9
60
32-9*
27
•H 30-2
50 I+-' 3_
-22*9
2 45 , 7_...
125 29*4
£
384
37
24 30*8^
49 5i'4
a 44*3 4
257 152
439j!
90
49*41
100
54-g;
Digitized by '
O
TABLES.
47,
USED IN DETERMINING THE LATITUDE BY OBSERVATIONS
OF THE POLE STAR OUT OF THE MERIDIAN.
TABLE L
Containing the First Correction.
Argument: — Sidereal Time of Observation.
I Sidereal
Time.
Correction.
Sidereal
Time.
Sidereal
Time.
Correction.
Sidereal
Time.
i
| h m
1 »
h m
h m
1 »
h m
O
- 1 14 42 +
12 O
6
- 25 43 +
22 20
l8 O
10
1 IS 45
IO
IO
IO
20
1 16 39
20
20
19 7
20
30
1 17 25
1 18 2
30
30
15 45
30
40
40
40
12 22
40
SO
1 18 30
SO
50
8 57
SO
1
1 18 48
13
7
5 31
19
10
1 18 58
10
10
— 2 4 +
IO
20
1 18 59
20
20
+0 1 23 -
20
30
1 18 51
30
30
4 50
8 16
30
40
1 '! H
40
40
40
So
1 18 8
50
So
11 41
So
t
1 17 33
1 16 49
14
8
15 4
18 27
20
10
10
10
IO
20
1 15 56
20
20
21 47
20
30
1 14 55
30
30
25 4
28 19
30
40
» 13 45
40
40
40
SO
1 12 27
50
50
31 30
SO
3
1 11
15
9
34 38
21 O
10
1 9 26
10
10
37 42
10
20
* 7 43
20
20
40 41
20
30
1 S 53
30
30
043 36
46 26
30
40
1 3 55
40
40
40
So
1 1 50
So
50
49 11
50
4
59 37
16
10
51 50
22 O
10
57 l8
10
10
54 23
56 50
IO
20
54 S3
20
20
20
30
52 21
30
30
59 10
30
40
049 43
46 59
40
40
1 1 24
40
50
50
So
1 3 30
So
5
44 11
17
11
1 5 30
23 O
10
4* 17
10
10
1 7 22
IO
20
38 18
20
20
196
20
30
35 15
30
30
1 10 41
3c
40
32 8
40
40
1 12 10
40
50
28 57
50
So
1 13 30
50
6
- 25 43 +
18
12
+ 1 14 42 -
24
o
474
TABLES.
TABLE IL
Containing the Second Correction, (always to be added.)
Arguments: — Sidereal Time and Altitude.
Altitude.
Sidereal
Sidereal
i
Time.
O
5
IO
15
20
*5
30
35
Tfrpe.
h m
1 »
/ ♦
/ *
/ »
/ *
1 *
/ *
/ *
h. m
O
O I
1
2
2
3
3
O 4
12 O '
3°
I
I
1
1
O 2
3° 1
I
O O
13 1
3°
O
O O
30
2
I
I
1
1
O I
14
30
1
I
2
3
1 ?
4
30
3 °
I
2
3
; •
1 1
7
15
30
I
3
4
10
O 12
30
4
2
4
6
9
11
14
18
O l6
16
30
3
5
8
II
14
O 21
30
5
3
1 1
IO
14
10
17
22
26
17
30
4
12
20
O 2£
O 20
31
« 3o
6
4
9
13
18
23
O 34
18
30
s
9
14
19
24
30
O 37
38
30 i
7
s
10
15
O 20
25
31
19
» 3 °
s
10
15
O 20
25
O 31
38
30
8
5
9
14
19
O l8
24
O 30
37
20
30
4
1 1
13
23
28
34
30
9
4
12
16
21
25
31
21
30
3
7
IO
14
18
22
27
3° ,
10
3
5
8
II
15
18
22
zz l
30
2
4
6
9
11
O 14
17
30
11
1
3
5
6
8
O 10
12
23
3°
1
2
3
4
5
6
8
30
12
1
1
2
2
3
3
4
24
1
TABLE m. (for 1882.)
Containing the Third Correction, (always to be added.)
Arguments:— Sidereal Time and Date.
Sidereal
Time.
Jai
1. 1.
Feb. 1.
March 1.
April 1.
May 1.
June 1.
July 1.
h
1
#
t *
1 if
t #
1 n
t n
r 9
O
1
11
1 8
1 1
51
43
39
O 40
2
1
12
1 14
1 10
I 2
S3
45
O 41
t
1
10
1 17
1 17
I 13
« t4
; s i
O 47
O 56
1
5
1 IS
1 20
I 20
* 15
8
59
1 9
1 17
I 22
1 22
1 16
1 7
10
S3
1 1
1 9
I 18
1 22
1 21
1 15
12
»
52
46
59
50
58
1 17
1 I
1 21
1 15
1 20
1 19
16
So
43
43
47
56
1 5
1 13
18
55
45
40
40
4s
© 54
1 4
20
1
1
51
43
38
38
44
S3
22
1
7
f 5 l
51
42
38
39
45
H
1
11
1 1
51
43
39
40
o
TABLES.
47:
TABLE D.
Containing the Second Correction, (always to be added.)
Arguments: — Sidereal Time and Altitude.
Altitude.
Sidereal
Sidereal
Time.
35
40
45
50
55
60
65
70
Time.
h m
/ H
1 If
/ It
/ n
/ »
/ It
/ *
/ It
h m
O
4
5
6
7
8
10
12
16
12 O
30
2
2
2
3
3
4
5
6
30
I O
1
1
13 O
30
1
30
2 O
z
2
2
2
3
3
4
5
14 O
30
4
5
6
7
8
18
12
15
30
3
7
9
10
12
15
22
29
15 O
30
12
14
17
20
24
29
36
46
30
4
16
20
23
28
34
41
30
1 4
10
30
21
26
31
36
44
53
1 5
1 24
30
5
26
31
37
45
S3
1 s
I 20
* 43
17
30
31
37
44
52
1 2
1 16
1 34
2
3 °
6
34
41
49
58
1 10
1 24
1 44
2 14
18
30
37
44
52
1 2
' 15
1 31
I 5 2
2 24
30
7
38
45
54
1 5
1 17
* 34
1 56
2 29
19
„ 3 °
38
46
54
1 5
1 17
1 34
1 56
2 29
30
8
37
44
52
1 2
1 is
1 31
1 S3
2 24
20 O
30
34
41
49
58
1 10
1 25
1 45
2 15
30
9
31
37
44
52
1 3
1 16
1 34
2 1
21
3°
27
32
38
45
54
1 6
I 21
1 44
30
10
22
26
31
37
44
54
1 7
1 26
22
30
17
20
24
29
34
41
si
1 6
30
11
O 12
14
17
20
24
30
37
47
23
30
8
9
11
13
15
19
23
30
30
12
4
5
6
7
8
10
12
16
24
TABLE HI. (/or 1882.)
Containing the Third Correction, (always to be added.)
Arguments: — Sidereal Time and Date.
| Sidereal
Time.
July 1.
Aug. 1.
Sept. 1.
Oct. 1.
Nov. 1.
Dec. 1.
Dec. 31.
h
1 #
1 »
1 »
t a
t a
t it
/ a
O
40
47
57
1 8
1 19
1 27
1 30
2
41
43
49
58
56
1 20
1 27
t
47
56
43
48
44
48
x 7
1 16
43
0. 42
45
52
1 2
8
* 7
56
47
40
37
40
46
10
1 is
1 6
54
44
36
33
35
12
1 20
1 13
* 3
52
41
33
30
14
1 19
1 17
1 11
1 2
51
40
33
16
1 13
1 17
1 16
1 12
1 4
! '1
44
18
* 4
1 12
1 17
1 18
1 IS
58
20
S3
1 4
I '1
1 20
1 23
I 20
1 14
22
45
54
1 16
1 24
I 27
1 25
24
40
47
57
1 8
1 19
I 27
1 30
Digitized by "
O
476
TABLES.
AX
, i„ and &-, USED IN COMPUTING THE MOON'S LIBRATION.
Argument*: X—
8.
X-8
1
AX
i
B
X-8
AX
i
B
o
#
/ <
iiff.
1
1 «*
O
I
-j- o-o
O'O
+ 37
37
+0 o-o '
i-6+j
•6
*6
46
+ 06
06
+ 53
54
+ : fft
2
o-o
37
3-2
•6
47
o-6
55
1 1 \ s
3
0*1
37
4-8 \
0-4
•6
48
o-6
56
4
o*i
37
•6
49
o'6
57
■ »■' „
5
O'l
37
8-o
*6
50
o-6
58
1 106
6
O'l
3 2
9-6
*6
51
o*6
59
1 "1 •'
i
O'l
38
O II'2
•fi
5*
o-6
61
I 12-6
0*2
38
12*8
u
'6
53
06
62
1 »s-« .;
9
- 2
38
O I4'4 ^
.5
54
o # 6
63
1 14-0
IO
0'2
3 !
16-0
•6
55
06
65
1 'i' 5 !•!
ii
0-2
3 f
17*6
-6
56
o-6
67
1 l6< 4 .•
12
0-2
3 !
19*2
•5
-6
11
06
69
1 T 3 o-i
13
0-3
3 2
20-7 '
o-6
7i
1 »«•» ,-i
H
03
38
22*3
'6
59
o'S
73
I 19-0
O'e
'|
0-3
39
O 23*9
•5
60
o-s
75
1 I9 1 •■«
l6
0-3
39
O 25-4 x
3
•6
61
o'S
77
I 200 .
IS
0-3
39
27*0
28-5
62
05
79
1 21-4
0-3
39
63
o # 5
82
1 "'5 07
19
04
39
30*0
64
o'5
85
I 22-8 '
07
20
0-4
40
3 I# 5 ,
8
o # S
88
1 *3*5 .,
21
0-4
40
330
0-5
92
1 *4« o6
22
0-4
40
34'5 2
36*0
&
0-4
96
1 *4'8 ,.j
23
0-4
4i
68
0-4
100
1 *5'4 06
24
0-5
4i
37-5 |
69
0-4
104
I 20-0 ,
2 I
o-s
4i
39*0
70
0-4
109
* »«'« ,-f
26
0-5
4i
40-5 x
7i
0-4
"5
1 *7 -t o-s
*7
o-s
4*
041-9
7*
o*4
121
1 277 - 4
28
05
42
43*3 ,
73
0-3
128
1 28-1 *
a /• 3
29
0-5
43
44-7
74
0-3
135
I 28*6
o'4
30
0-5
43
46-1
7 I
0-3
144
I *9 ,c » - 4
3'
°'I
44
47*5 !
76
o-s
'A
1 *9-4 . 4
32
o-6
44
48:9
?
0-3
1 «9' 8 o-i
33
06
45
50-2 x
0-3
l80
1 3°' \ 0-4
34
o-6
45
51-6 x
79
0-2
I96
1 3 °" 5 .j
35
o-6
46
52-9
80
0-2
215
1 3°' 8 o-t
36
o-6
46
54-2
81
0-2
18
1 3 1 ' f)
11
o-6
47
5 I'i 1
568
82
0*2
1 31-3 ,.,
o-6
%
5 3
O'l
306
I V'i ,,
39
o-6
580 *
84
0*1
357
1 3i-6 ,,
40
06
49
59-2
!l
0*1
428
1 3i' 8 0-1
4i
06
49
1 °'S x
86
o-i
535
1 3**9 ,.,
42
06
So
1 I- 7 x
ft
o-i
7^3
» 3 2 ' o-j
43
06
5*
1 2*9
# 2
88
o-o
1069
+2138
1 3* 1 o-o
44
o-6
5*
1 4 ' X + X I
* 2
89
o-o
1 3*-Vo ,
45
+ o-6
+ 53
90
+ o-o
00
+ 1 3*" 1 !
•Whe
n X — iS exc
eeds 180 ,
take the excess
for
the Argu
ment, and c
bange the signs of J » n ^ &•
Digitized by
Google
TABLES.
477
AX, J,andi?
; USED IN COMPUTING THE MOON'S LIBRA.TION.
Argument*: X— J3.
X-Q
i
AX
*
B?
X-Q
AX
i>
&
o
/
O /
difT.
/
/
diff.
90
91
— o*o
O'O
00
—2138
1069
+ 1 32'I_
I 32*1
/
-0*0
0*0
135
136
- o-6
06
- 53
5*
+ 1 5** ,
1 4 '* 1
•1
*2
92
O'O
1 32-1
0' I
I3 2
138
o-6
51
1 2*9
•2
1 93
o*i
713
I 32*0
O* I
o-6
50
1 I# 7 ,
• 2
94
O'l
535
I 319
0*1
139
06
49
1 0-5
i 95
O'l
428
1 31-8
0*2
140
o*6
J?
59-2 \
58-0
*3
. 96
0*1
357
1 31*6
141
o-6
1 9 2
98
O'l
306
i 31-5
0*2
142
o-6
47
56-* !
■3
'3
•3
0*2
268
1 313
0-3
0*2
'43
o-6
47
55*5 \
99
0*2
239
1 31*0
144
o-6
46
54-2
' 100
0*2
215
1 30S
H5
06
46
52-9 '
: 101
I 102
0*2
03
196
180
1 30-5
1 30*1
o*3
o'4
146
148
o-6
o-6
45
45
51 -6
50*2 J
"3
'4
103
o*3
166
1 29*8
0*3
0-4
o*4
0-4
o'S
0-4
o*5
o'6
o-6
44
48-9
'3
•4
•4
'4
•4
'4
•5
•5
•5
'5
•5
5
! 104
0-3
154
1 294
149
OS
44
47*5
105
03
144
1 29*0
150
' 0-5
43
46*1
106
03
I3 I
1 28-6
151
0-5
43
°44'7 \
107
108
03
128
1 28-1
152
0-5
42
°43"3 ,
04
121
1 27-7
153
o*S
42
041-9
109
0-4
"5
1 27*2
J 54
°'5
4i
40-5
no
0-4
109
1 26-6
o*6
I5 I
o'5
41
39-0
' in
I.II2
04
0-4
104
100
1 26*0
1 25-4
o-6
o a 6
156
15 l
o'5
0-4
4i
4i
37*5 j
360
i "3
0-4
96
1 24*8
o*6
158
0-4
4°
34*5 \
! »4
°S
92
1 24*2
0-7
159
0-4
40
33*o
i «s
o'S
88
1 23-5
160
0-4
40
3 I# 5 !
116
0-5
85
I 22-8
o*7
161
0-4
39
30*0
'5
i"I
05
o-5
82
79
I 22*1
I 21*4
o*7
0-7
o*8
162
163
0-3
0-3
39
39
28 # 5
27*0 \
'5
•5
•6
Il 9
0-5
77
I 20*6
o*8
164
0-3
39
25-4 |
'5
*6
120
05
75
I 19*8
o-8
ll
0-3
3
23*9
121
05
73
I 19*0
o*8
l66
- 0'3
O 22'3 j
•6
\ 111
06
7 1
I 18-2
o«
167
°*3
3«
20 -7
! 123
o-6
69
I 17-3
°*9
168
0'2
38
19-2 :
'5
•6
•6
•6
*6
j "4
06
67
I 16-4
0*9
I69
0'2
38
17*6 J
! "5
06
65
I 15-5
o*9
I70
O'l
38
16*0
1 126
o-6
63
I 14-6
0*9
1*0
171
O'l
3*
14-4 !
1 127
06
62
i 13-6
172
0*2
38
I2'8
•6
•6
• 5
128
o-6
61
I 12*6
1*0
173
O'l
38
O II'2
• 129
06
59
1 n-6
1 "0
I "0
174
0*1
38
9*6 1
I 130
o-6
58
1 io'6
175
O'l
37
80
•6
'6
131
o-6
5 l
1 9-6
I * X
I76
O'l
37
6-4 1
132
o-6
56
1 85
I * I
177
O'l
37
4-8 *
•6
133
06
55
1 r 4
1*1
178
O'O
37
yi ]
•6
134
! »35
o-6
- 06
54
- 53
1 6- 3 _
+ 1 si
-I'l
179
l80
O'O
— O'O
37
- 37
i'6_ J
+ O'O !
•6
1 "When
X— 8 «X«
Mfe 180°, <
take the excess for 1
the Argument, and c
tange the
signs of J, and
B 1 .
o
478
TABLES.
For converting Intervals of Mean Solar Time into Equivalent Intervals
of Sidereal Time.
HOURS.
MINUTES.
SECONDS. !
"1
Equivalents
in
Sidereal Time.
Equivalent!
in
Sidereal Time.
11
Equivalents
in
Sidereal Time.
u
Equivalents
in
Sidereal
Time.
Equivalents
in
Sidereal
Time.
i
2
3
h m ■
1 O 9*8565
2 19*7130
3 29*5694
1
s
3
m
I
2
3
a
0*1643
0*3286
0*4928
31
32
33
m a
31 5^925
32 5*2568
33 5-4*11
1
2
3
a
1*0027
2*0055
3*0082
31
32
33
a
31*0849
32*0876
330904
4
i
4 39-4259
5 49-2824
59*1388
4
i
4
5
6
0*6571
0*8214
09857
34
34 5-5*53
35 5-7496
36 5-9*39
4
i
4*0110
5-0137
6*0164
34
36
340931
35 0958
36-0986
'I
9
8 1 18*8518
9 1 28-7083
I
9
1
9
1 -1499
1-3142
1-4785
11
39
37 6*0782
38 6-2424
39 6*4067
I
9
7-0192
8*0219
0/0246
38
39
37-1013 i
38*1040
39*1068
10
ii
12
10 1 38-5647
11 I 48 '4212
12 I 58*2777
10
11
12
10
11
12
1-6428
1-8070
1-9713
40
41
42
40 6-5710
41 6*7353
42 6*8995
10
11
12
10-0274
11 030c
12-0329
40
41
42
40-1095
41-1123
42*1150
1
13
13 2 8'1342
14 2 17*0906
15 2 27-8471
13
14
15
'3
14
2-1356
2*2998
2-4641
43
44
45
43 7-0638
44 7-2281
45 7*39*4
»3
14
15
13-0356
14-0383
15*0411
43
44
45
43-1177
44* "05
45-1232
16
18
16 2 37*7036
17 2 47*5600
18 2 574165
16
11
16
2*6284
2-7927
2-9569
46
46 7*5566
47 77*09
48 7*8852
16
16-0438
170465
18*0493
46
46-1259
47-1287
48-1314
-9,
20
21
1 9 3 7-2730
20 3 17*1295
21 3 26*9859
19
20
21
19
20
21
3*1212
3-2855
3*4498
49
So
Si
49 5*0495
50 8*2137
51 8*3780
19
20
21
19*0520
20-0548
21*0575
49
SO
Si
49-1342
50-1369
51*1396
22
2 3
24
22 3 36*8424
23 3 46*6989
*4 3 S6-5S54
22
*3
24
3
27
22
23
24
a
27
3*6140
3-7783
3-9426
4*1069
4-27II
4*4354
5*
53
54
3
57
52 8*5423
53 8- 7066
54 8-8708
55 9-035I
56 9-1994
57 9-3637
22
23
24
a
27
22' 0602
23*0630
24*0657
25*0685
26*0712
27-0739
5*
S3
54
9
57
52-1424
53 "US 1
S4"i479
55-1506
56 153 3
57-1561
28
29
30
28
29
30
4*5997
4-7640
4-9282
5«
I 9
60
58 9-5279
59 9*6922
60 9*8565
28
29
30
28 -0767
29*0794
30'082I
58
12
58-1588
59-1615
60-1643
Digitized by *
O
TABLES.
47!
For converting Intervals of Mean Solar Time into Equivalent Intervals
of Sidereal Time.
FRACTIONS OF A SECOND.
*4
Equivalents
in
Sidereal
Time.
Equivalents
in
Sidereal
Time.
Equivalents
in
Sidereal
Time.
Equivalents
in
Sidereal
Time.
*2
Equivalents
in
Sidereal
Time.
O'OI
0'02
0*03
0*04
0'05
0'o6
0-07
0*08
0*09
0*10
O'H
0*12
0*13
0-14
0-15
0*16
o*i
o
:»
0*19
0'20
0*01003
0-02006
0*03008
0-04011
0-05014
o' 06016
0-07019
0-08022
0-09025
0*10027
0*11030
0-12033
0*13036
0*14038
0*15041
0-16044
0*17047
0*18049
0*19052
0*20055
0*2I
0*22
0*23
0*24
0*25
0*26
)'27
)*28
o
o
0*29
0-30
0*31
0*32
0-33
0*34
0*35
0*36
0-37
0*38
0*39
0*40
0*21057
0*22060
0*23063
0*24066
0*25068
0-26071
0*27074
0*28077
0*29079
0*30082
0*31085
0*32088
0*33090
0*34093
0*35096
0*36099
0*37101
0*38104
0*41
0*42
0*43
0*44
0*45
0*46
0*47
0-48
0*49
0*50
0*51
0*52
0*53
0*54
0*55
0*56
0-57
0*58
0*39107 0*59
0*40110 o*6o
0*41112
0*42115
0*43118
0*44120
0*4512
0*46121
0*47129
0*48131
0*49134
0*50137
0*51140
0-52142
o # S3HS
0*54148
0*55151
05615
o*6i
0*62
0*63
0*64
0*65
0*66
0*67
o*68
0*69
0*70
0*71
0*72
0*73
0*74
0*75
15 l
150
057156
8159
0-58
0*76
0*7
3
0*59162
0'60l64
0*79
0*80
0*61167
0*62170
0*63173
0*6417
0*65178
o*66i8i
0*67183
0*68186
0*69189
0*70192
0*71194
0*72197
0*73200
0*74203
0*75205
0*76208
0*77211
0*78214
0*79216
0*80219
o*8i
0*82
0*83
0*84
0*85
0*86
o*8
o*8
0*89
0*90
0*91
0*92
0*93
0*94
0*95
0*96
0*97
0*98
099
I'OO
0'8l222
0*82225
0*83227
0*84230
0*85233
0*86235
0*87238
0*88241
0*89244
o - 90246
C9I249
0*92252
O93255
0*94257
o* 95260
o - 9626
0*97261
0*98268
0-99271
1*00274
I Sidereal Time required =z Sidereal Tune at the prtcediag Mean Noon + the Equivalent to the given
1 Mean Time.
' Example. — To convert a h as 111 15**61 Mean Time at Greenwich, Jan. at, 1882, into Sidereal Time.
I h m ■
Sidereal Thne at the preceding Mean Noon, via. January ai ----- 20 2 59*64
(a h o* o* "J f a o 19*713
aa o I The Tank give* the Equivalent J 22 5*614
25 J Sidereal Intervals, ] 25*069
o*6a J I 0*622
The Sam ia the Sidereal Time required - - aa 25 48*66
Digitized by vjOC
O
480
TABLES.
!
For converting Intervals of Sidereal Time into Equivalent Intervals of
Mean Solar Time. i
HOURS.
MINUTES.
SECONDS.
4
33
Equivalents
in
Mean Time.
4
l
00
Equivalent*
in
Ham Time.
Bquiralents
in
Mean Time.
I
s
Equivalents -9^
MeanTime. JJ
3
Equivalents
in
■lean Time
I
z
3
h m s
59 50-1704
1 59 40'34<>9
2 59 30-SII3
I
2
3
m s
59*8362
1 59*6723
2 59-5085
31
32
33
30 54-9^14
31 54'757 6
3* 54*5937
I
2
3
0-9973
1-9945
2*9918
3i
32
33
30-9154
31*9126
3**9099
4
i
3 59 20*6818
4 59 10*8522
5 59 1*0226
4
i
3 59 "3447
4 59' 1809
5 59-0170
34
36
33 54-4*9.9
34 54*2661
35 54' 1023
4
i
3*9891
4*9864
5*9836
34
33-9072
34 9045
359017
9
6 58 51-1931
7 S» 4*'3 6 35
8 58 3i'S34o
I
9
6 58*8532
7 58-6894
8 585256
3 2
38
39
3 6 53'93 8 4
37 53-7746
38 536108
7
8
9
6-9809
7*9782
8 '9754
11
39
36-8990
37-8963
38-8935
10
ii
12
9 58 21*7044
io 58 11*5748
11 58 2*0453
10
11
12
9 58-3617
10 58 1979
11 58-0341
40
41
42
39 53*4470
40 53-2831
41 53-1193
10
11
12
9-9727
10*9700
11*9672
40
41
42
39*8908
40-8881
41 8853
13
15
12 57 52*2157
13 57 42*3862
14 57 32*5566
*3
15
12 57-8733
13 57-7064
14 57-5426
43
44
45
42 52-9555
43 52-79I7
44 52*6278
13
15
12*9645
13*9618
14*9591
43
44
45
42-8826
438799
44*8772
16
18
15 57 22*7270
16 57 12*8975
17 57 3-0679
16
s l
18
15 57-3788
16 57-2150
17 57-0511
46
3
45 52*4640
46 52*3002
47 52-1364
16
11
I5-9563
169536
17*9509
46
47
48
45-8744
46-8717
47-8690
*9
20
21
18 56 53*2384
19 56 43*4088
20 56 33- 5792
19
20
21
18 56-8873
19 56- 7235
20 56 5597
49
50
51
48 51-3725
49 518087
50 51-6449
19
20
21
18*9481
19*9454
20*9427
49
50
51
48-8662
49-8635
50-8608
22
23
24
21 s^ 23-7497
22 56 13*9201
23 56 4*0906
22
23
24
*5
26
27
21 56-3958
22 56-2320
23 56-0682
24 55-9044
25 55*7405
26 55-5767
52
53
54
!i
57
51 51*4810
52 51-3172
53 5I-I534
54 50-0896
55 50-8257
56 50*6619
22
23
24
3
27
21-9399
22*9372
23-9345
24*9318
25*9290
26*9263
52
53
54
51-8580
52-8553
53 8526
54-8499
55*8471
56-8444
28
29
30
27 55-4129
28 55-2490
29 55-0852
58
Io
57 50-49 81
58 50-3343
59 50-1704
28
29
30
27*9236
28*9208
29*9181
12
...i
57f4"7
58*8389
59-8362
|
Digitized by
Gubgfc -
TABLES-
481
For converting Intervals of Sidereal Time into Equivalent Intervals of
Mean Solar Time.
FRACTIONS OF A SECOND.
Equivalent*
in
Mean Time.
Equivalents
in
Mean Time.
Equivalents
in
Mean Time.
Equivalents
in
Mean Time.
Equivalents
in
Mean Time.
O*0I
0*02
C03
O a 04
O'O
O'Ol
0*07
0*08
0*09
O'lO
O'll
0*12
CI3
OM4
CI5
0*16
0*17
0*18
0*19
0*20
0*00997
0'0I995
0*02992
0*0398
0*0498
0*05984
0*06981
0*07978
0*08975
0*09973
0*10970
0*11967
0*12965
0*13962
0*14959
0*15956
0*16954
0*I795I
0*18948
0*19945
0*21
0*22
0*23
0*24
0*25
0*26
0*2
0*2
0*29
0'30
0*31
0*32
0*33
0*34
0*35
0*36
0*37
0*38
0*39
0*40
0*20943
0*21940
0*22937
0*23934
0*24932
0*25929
0*26926
0*27924
0*28921
0*29918
0*30915
0*31913
0*32910
0*33907
0*34904
0*35002
0*36590
0*37896
0*38894
0*39891
0*41
0*42
0*43
0*44
0*45
0*46
0*47
0*48
0*49
0*50
0*51
0*52
0-53
0*54
0*55
0*56
0*57
0-58
0*59
o*6o
0-40888
0-41885
0*42883
0*43880
0*44877
0*45874
0*46872
o* 47861
0*48861
0*49864
0*50861
0*51858
0*52855
0*53853
0*54850
0*55847
0*56844
0*57842
0*58839
0*59836
o*6i
0*62
0*63
0*64
0*65
0*66
o*6
o*6;
0*69
0*70
0*71
0*72
0*73
0*74
0*75
0*76
0*77
0*78
0*79
o*8o
0*60833
0*61831
0-62828
0*63825
0*64823
0*65820
0*66817
0-67814
0*68812
0*69809
0*70806
0*71803
0*72801
0*73798
0*74795
0*75793
0*76790
0*77787
0*78784
0*79782
o*8i
0*82
0*83
0-84
0*85
o
•86
0*87
o*88
0*89
0*90
0*91
0*92
0*93
0*94
0*95
0*96
0*9
0*9:
0-99
I'OO
0*80779
0*81776
0*82773
0*83771
0*84768
0*85765
0*86762
0*87760
0*88757
0*89754
0*90752
0*91749
0*92746
0*93743
0*94741
0*95738
0-96735
0*97732
0*98730
0*99727
Mean Solar Time required = Mean Time at the preceding Sidereal Noon + the Equivalent to the
given Sidereal Time.
Example. — To convert ja b 25"* 48' '66 Sidereal Time at Greenwich, Jan. 21, 1882, into Mean
Time.
h m •
Mean Time at the preceding Sidereal Noon, viz., January 20 ------ 4 017*44
■ aa h o m o* 1 f 21 56 23*750
\ The Table gives the Equivalent I 24 55 • 904
Mean Intervals, 1 47* 869
I -658
For Sidereal
Intervals.
preceding Sider
k o»o' I
o*66 J
The Sum is the Mean Time required, Jan. 21 - 2 22 25*62
Digitized by
Google
82
TABLES.
THE CORRECTION FOR SECOND DIFFERENCES, IN
FINDING THE GREENWICH TIME CORRESPONDING TO A
REDUCED LUNAR DISTANCE.
Arguments: — Interval and Mean difference of Proportional Logarithms.
Interval.
Mean difference of the Proportional Logarithms in the Ephemeris.
2 4
6 8 1012 1416182022242628 3032 34 36384042444648 50 52
h m
3 O
2 50
2 40
2 30
2 20
2 IO
2 O
i 50
I 40
I 30
2 O
i 50
I 40
I 30
h m
3 O
2 SO
2 40
2 30
2 20
2 10
2 O
I 50
I 40
I 30
2
4|4
6
8
10 10
11
IOIOII
10
11
t
o
3
5
7
9
10
11
12
12
12
14 14
9
11
13
14
15
16
s
O
Mean difference of the Proportional Logarithms in the Ephemeris.
54
s
O
4
7
9
12
H
IS
17
17
5658
60
B
o
4
7
10
12
14 15
16
17
II
62
6466
4
8
11
II
II
19
19
68
70
72
74
78
80
82
84
86
88
9092
2727
28
949698
2930
100
102
o
7
*3
18
22
26
28
30
3*
32
Mean difference of the Proportional Logarithms in the Ephemeris.
104
106
•
o
7
*3
18
2
2
29
3i
33
33
108
o
7
*3
19
23
27
30
32
33
34
no
7
H
'9
24
27
30
32
34
34
112
114
116
■
o
8
H
20
*5
29
32
34
36
118
1
o
8
»5
20
*5
29
33
3 I"
36
120
122
8
o
8
15
21
26
30
3 o
38
124
B
o
8
'5
21
*7
3i
34
H
38
39
126
128
130
132
134
8
o
.2
»3
29
33
37
40
4i
42
136
138
s
O
9
l 7
*4
30
34
38
4i
4a
43
The Correction is to be added to the approximate Greenwich Time -when the Proportional
Logarithms in the Ephemeris are decreasing, and subtracted when they are vwreating.
Digitized by
Got
o
JULIAN PERIOD.
483
Days elapsed at Mean Noon of Jan. 1 of each year of the Table.
Days elapsed
at Mean Noon.
AD.
200
400
600
800
1000
1200
1400
1600
1800
l 7
17
18
19
20
20
21
22
23
23
Month
21058
94108
67158
40208
13258
86308
59358
32408
05448
78497*
and
1882.
4
8
"5*9
23980
955^
97030
68619
70080
41669
43130
14719
16 1 80
87769
89230
60819
62280
33869
35330
06909
08370
79957
81418
Day.
240
12
25441
98491
7I54I
4459 1
17641
90691
63741
36791
09831
82879
Jan. I
8447
16
20
26902
28363
99952
73002
74463
46052
475U
19102
20563
92152
93613
65202
66663
38252
39713
II292
12753
84340
85801
11
21
8457
8467
OI4I3
24
29824
02874
759*4
48974
22024
95074
68124
4"74
14*H
87262
3 1
8477
28
31285
04335
77385
50435
23485
96535
69585
4*635
15675
887*3
Feb. 10
8487
8497
8507
8517
3*
32746
05796
78846
51896
24946
97996
71046
44096
17136
90184
36
40
34207
35668
07257
087I8
80307
81768
53357
54818
26407
27868
99457
7*507
73968
45557
47oi8
18597
20058
91645
93106
20
Mar, 2
12
00918
44
37129
IOI79
83229
56279
29329
02379
754*9
48479
215x9
94567
48
38590
I 1 64O
84690
5774°
30790
03840
76890
4994o
22980
96028
22
8527
5*
40051
I3I0I
8615 1
59*ox
3**5i
05301
78351
5x401
24441
97489
Apr. 1
8537
56
60
41512
42973
14562
16023
876x2
89073
60662
62123
337i*
35173
06762
08223
79812
81273
52862
543*3
25902
27363
98950
11
21
8547
8557
0041 1
64
44434
17484
90534
63584
36634
09684
8*734
55784
28824
0x872
May 1
8567
68
45895
18945
91995
65045
38095
11145
84195
57*45
30285
03333
11
53?
7*
47356
20406
93456
66506
39556
12606
85656
58706
31746
04794
21
£
48817
21867
94917
67967
41017
14067
87x17
60167
33*07
06255
3 1
8597
50278
23328
96378
69428
42478
155*8
88578
61628
34668
077x6
June 10
20
8607
84
5 '739
24789
97839
70889
43939
16989
90039
63089
36129
09177
8617
88
92
53200
54661
26250
277II
99300
72350
7381 1
454oo
46861
18450
199"
91500
92961
64550
660 1 1
37590
39051
10638
12099
30
July 10
8627
8637
8647
8657
00761
96
56122
29172
02222
75272
48322
.21372
94422
67472
40512
13560
IOO
57583
30633
03683
76733
49783
22833
95883
68933
41973*
15021*
20
104
59<>44
32094
05144
78194
5«44
24294
97344
70394
43433
16481
30
IOS
112
60505
61966
33555
35016
06605
08066
79655
81116
5*705
54166
*5755
27216
98805
71855
73316
44894
46355
17942
19403
Aug. 9
*9
8607
8677
00266
Il6
63427
36477
09527
8*577
55627
28677
oi7*7
74777
47816
20864
Sept. 8
8687
120
64888
37938
10988
84038
57088
30138
03188
76238
49*77
22325
8697
124
66349
39399
12449
85499
58549
31599
04649
77699
50738
23786
18
8707
128
67810
40860
13910
86960
60010
33060
061 10
79x60
5*199
25247
28
8717
132
69271
42321
X537I
88421
61471
345*i
07571
80621
53660
26708
Oct 8
18
28
Nov. 7
8727
8737
8747
8757
I36
70732
43782
.G83*
89882
62932
35982
09032
82082
55i*i
28169
I40
72193
45*43
18293
9»343
64393
37443
10493
83543
56582
29630
144
73654
46704
19754
92804
65854
38904
11954
85004
58043
3x091
I48
75"5
48165
21215
94*65
67315
40365
13415
86465
59504
3*55*
IS2
76576
49626
22676
957*6
68776
41826
14876
87926
60965
34013
*7
8767
156
78037
51087
*4*37
97187
7o*37
43287
16337
89387
62426
35474
27
8777
8787
8797
l6o
164
79498
80959
52548
54009
25598
27059
98648
71698
73159
44748
46209
17798
19*59
90848
92309
63887
65348
36935
38396
Dec. 7
17
00109
168
82420
55470
28520
01570
74620
47670
20720
93770
66809
39857
27
8807
172
I76
83881
56931
29981
03031
76081
49131
22181
23642
95*31
96692
68270
69731
41318
37
8817
85342
58392
31442
04492
7754*
50592
4*779
l8o
86803
59853
32903
05953
79003
5*o53
25103
98153
See end
of Table
71192
44*40
A.D.
Days.
1580
2298153
184
188
88264
89725
6i3H
62775
34364
35825
07414
08875
80464
81925
535H
54975
26564
28025
99604
72653
74"4
45701
47x62
1581 0519
01065
I502
1583
f rR>i
0004
9239
192
91186
64236
37286
10336
83386
56436
29486
02526
75575
48623
I96
92647
65697
38747
1 1797
84847
57897
30947
03987
77036
50084
IS 04* ywq.
* denotes a
'7
l8
*9
20
20
21
22
23
23
24
common year.
2 12
^4
DAY OF THE YEAR, &c,
1882.
DAY AND FRACTION OF THE YEAE FROM MEAN NOON I
OF JAN. i.
4
JjNUABT.
Febbuabt.
Vatmiw.
Aran*
Mat.
JCSB.
•
i
*l
•
•
i
•
*
i
i
|
1
3
3
1
1
J
*
3
1
3
1
9
o
1
g
I
3
•3
|
1
O
I
3
1
3
•1
3
|
*
1
I
6-
1
1
s
G
1
p
k
I
•0000
31
•0849
I 9
•l6l5
90
•2464
120
•3285
'5i
•4I3*
■4162
2
I
•0027
32
•0876
60
•1643
91
•2492
121
•3313
IJ2
3
2
•0055
33
•0904
61
M67O
92
•2519
122
•3340
'53
•4189
4
3
'0082
34
•0931
62
M698
93
•2546
123
•3368
154
'4116
5
4
•0110
35
•0958
6 J
•1725
94
•*574
•»6oi
124
•3395
ij6
•4M4
6
5
•0137
36
•0986
64
•1752
95
125
•3422
•4*7''
7
8
6
7
•0164
•0192
ll
•1013
•1040
u
•I780
•I8O7
96
97
'2628
'2656
126
I!?
•3450
•3477
157
158
•4295
•4326
9
8
•0219
39
•1068
67
•1834
98
•2683
•3504
159
•435)
10
9
'0246
40
•1095
68
•1862
99
•2711
129
•353*
160
•« s !
ii
10
•0274
4i
•1123
69
•1889
100
•2738
I30
•3559
•3587
161
•44^.
12
11
•0301
42
•1150
70
•1917
10*
•2765
131
162
•4435
"3
12
•0329
43
•1177
7«
•1944
102
•2793
-2820
13*
•3614
16]
•4463
14
'3
•0356
44
•1205
72
•1971
103
133
•3641
164
•4490
15
14
•0383
4S
'1232
73
•1999
104
•2847
'34
•3669
165
•451S
16
15
•0411
46
•1259
74
•2026
105
•2875
'35
•3696
166
•4545
17
16
•0438
•0465
3
•1287
7 §
•2053
106
'2902
I36
•3724
167
•457 J
18
17
•1314
76
-208l
107
•2930
137
•3751
168
•460c
'9
18
•0493
49
•1342
8
•2108
108
•2957
•2984
•3012
I38
•3778
169
•46:7
4 6 54
•468:
20
'9
20
•0520
•0548
So
5'
•1369
•1396
•2136
109
no
139
140
•3806
•3833
170
21L
21
79
•2I63
22
21
•0575
5*
•1424
80
'2190
III
•3066
HI
•3860
172
•4709
23
22
•0602
53
•1451
81
*22l8
112
142
•3888
'73
'4737
•4764
H
23
•0630
54
•1478
82
•2245
113
•3094
H3
•3915
i74
*5
24
•0657
55
•1506
53
•2272
144
•3121
144
•3943
i75
•479 1
26
S I
•0684
56
'1533
•1581
84
•2300
"1
'3 H9
H5
•3970
176
•4846
27
26
•0712
57
85
•2327
Il6
•3176
I46
•3997
i77
28
27
•0759
•0767
58
•1588
86
# *3S5
"I
'3203
\U
•4025
178
•48/3
29
28
3
'2382
Il8
•3231
•4052
l l 9
180
'49°I
• 49 jS
30
29
•0794
•2409
119
•3*58
149
•4079
3»
30
•0821
89
•2437
150
•4107
"l
* Add -0029 if Fraction be required for the time t t see p. 294.
Digitized by
boo
o
DAY OF THE YEAH, &c,
188
2.
48;
DAY AND FRACTION OF THE TEAR FROM MEAN NOON
OF JAN. i.
|
July.
August.
September.
October.
NOVMCBBB.
Dbcehbeb.
•
#
•
•
•
,
*
O
3
t
|
1
|
•5
1
2
1
■3
1
3
1
3
l
3
1
■s
3
*S
l
3
I
1
a
3
a
3
08
"S
.1
"S
"S
•s
•s
V
"8
.2
►»
§
►>
"§
£.
£>
2
fe>
g
£»
d
fi
<S
£
&
a
£
(5
£
<s
h
1
l8l
•4956
212
•5804
243
•6653
•6681
273
•7474
304
•8323
334
•9H5
2
l82
•4983
213
•5832
244
274
•7502
305
'l iS l
335
•9172
3
J&L
•50IO
214
•5859
245
•6708
275
•7529
306
•8378
336
•9199
4
184
•5O38
•5065
2IS
•5887
246
•6763
276
'7557
307
308
•8405
337
338
•9227
5
185
2ID
"59H
247
277
•7|84
1 + 1 3
■8460
•9254
6
186
•5093
217
•594i
248
•6790
278
•761 1
309
339
'9282
7
187
•5120
2l8
•5969
•5996
249
•6817
279
280
:$?
310
•8488
340
•9309
8
188
•5H7
219
250
•6845
311
•8515
34'
•9336
•9364
9
189
•5175
220
•6023
251
•6872
281
•7694
312
•8542
342
IO
190
'5202
221
•6051
252
•6900
282
•7721
313
•8570
343
•9391
ii
191
"5229
222
•6078
253
•6927
283
•7748
3H
'!l 97
344
•9418
12
192
'5*57
223
•6106
254
•6954
284
•7776
315
■8624
345
•9446
*3
*93
•5284
224
•6133
255
•6982
28s
•7803
316
•8652
346
•9473
14
194
•5312
225
•6160
256
•7009
286
•7830
JI I
•8679
347
•9501
*5
195
•5339
226
'6188
257
•7030
287
•7858
318
•8707
348
•9528
16
196
•5366
227
228
•6215
258
•7064
288
•7885
319
•8734
349
•9555
ii
197
198
'5394
'6242
259
•7091
289
•7913
320
•8761
350
•9583
•5421
229
•6270
260
•7119
290
•7940
321
•8789
35'
•9610
*9
199
•5448
230
'6297
261
•7146
291
•7967
322
•8816
352
' 9 !i 7
•9665
20
200
*547 6
23I
•6325
262
•7173
292
'7995
323
If 43
353
21
201
•5503
232
•6352
263
•7201
293
•8022
324
•8871
Jii-
•9692
22
202
'553 1
233
•6379
264
•7228
294
'8049
325
•8898
355
•9720
23
203
•5558
234
•6407
200
•7255
295
•8077
326
•8926
356
•9747
24
204
'5585
*35
•6434
•7283
296
'8104
327
•8953
357
'9774
25
205
•5613
236
"6461
267
268
•7310
297
•8132
328
•8980
358
'9802
26
206
•5640
237
238
'6489
•7338
•7365
298
*! I5 2
329
'9008
359
•9829
27
207
•5667
•6510
269
299
•8186
330
•9035
360
■9856
28
208
•5695
239
•6544
270
.7392
300
'8214
331
'9062
361
■9884
29
209
•5722
240
•6571
271
•7420
301
'8241
332
'9090
362
•9911
30
210
•5750
24I
•6598
272
•7447
302
■8268
333
•9117
363
•9930
1 31
211
•5777
242
•6626
303
'8296
364
•9960
* Add -0029 if Fraction be required for the time t, see p. 294.
Digitized b; ~~*"
[86
OBSERVATORIES.
%* The Longitudes are reckoned from the Meridian of Greenwich.
Adelaide ---
Albany, (U.S.)
Altona
Ann-arbor, (U.S.)
Armagh
Athens ---------
Batavia
Berlin ----------
Bilk ----------
Birr Castle (The Earl of Rosse) -
Bologna ---------
Bonn --.---.---
Breslau -- - -
Brussels - -
Cambridge
Cambridge, (U.S.) - -----
Cape of Good Hope - - - - -
Cardington (S. C Whitbread, Esq.)
Chicago ---------
Christians - - -
Cincinnati- -- -
Copenhagen (University) - - - -
Cordoba ---------
Cracow ---------
Dorp at- ---------
Dublin ----
Durham
Edinburgh
Florence (Mus6e Royal) - - - -
Geneva- - - - r
Georgetown College, D.C. (U.S.)-
Glasgow ---------
Gotha (New Observatory) - - -
gottingen
Greenwich --
Hamburg ---------
Hamilton College, N.Y. (U.S.) -
Helsingfors --------
Josephstadt (Vienna) (Herr Theo-
dore Oppolzer).
Kazan ------.-..
Latitude,
o i »
34 55 33* S.
42 39 49*6 N.
53 3^ 453 N.
42 16 48 N.
54 21 i2 # 7 N.
37 58 20 N.
6 7 36-6 S.
52 30 16 • 7 N.
51 12 25 N.
53 S 47 »•
44 *9 47 »•
50 43 450 N.
51 6 56-1 N.
50 51 io # 7 N.
52 12 51*6 N.
42 22 48 N.
3'5 S.
25 N.
33 56
52 6
41 50
i-o N.
59 54 43*7 N.
39 6 26*5 N.
55 41 i r 6 N -
3*
50
25 15
S.
3 so'o N.
58 22 47 'i N.
53 *3 x 3 N.
54 46 6-2 N.
55 57 *3^ N.
43 46 4-1 N.
46 11 58-8 N.
38 54 26-1 N.
55 52 42*8 N.
50 56 37- 5 N.
51 31 48 N.
51 28 38-4 N.
53 33 7'<> N -
43 3 l6 '5 N.
60 9 42-3 N.
48 12 55 N.
55 47 M # * N.
Longitude,
h m
54
39
34
26
34
7
S3
27
3i
45
28
8
17
o
44
13
1
So
42
37
So
16
*9
46
*5
6
12
45
H
8
17
42
39
o
39
t
39
5
9
4
o
5
o
1
7
o
o
o
o
o
I
o
o
4
1
o
5
o
S
o
4
1
1
o
o
o
o
o
5
o
o
o
5
1
1
21
59
46
55
35
55
12
34
5
40
*4
23
9
28
22
30
55
39
26
54
59
J 9
45
5i
53
22
*9
43
1
37
18
10
So
46
o
53
37
49
*5
3 16 28*9
Digitized by
LiOO
o
OBSERVATORIES.
48:
* # » The Longitudes are reckoned from the Meridian of Greenwich.
Kew
Kiel
konigsberg ---
Kremsmunster -------
Letpsic
Leiden ----------
Leyton (J. Gurney Barclay, Esq.) -
Lisbon (Marine Observatory) - - -
Lisbon (Royal Observatory) - - -
Liverpool (Bidston, Birkenhead) -
Lund -- - - -
Madras ---------
Madrid - - -
Manheim
Marburg ----------
Markree (Col. Cooper) - - - -
Marseilles --------
Melbourne (New Observatory) - -
Milan (Brera)
Modena ---------
Moscow
Munich (Bogenhausen) - - - - -
Naples (Capo di Monte) - - - -
Neuchatel -
Nicol^ff
Odessa ----------
Orwell Park, Ipswich (CoL Tomline)
Oxford (Radcliffe Observatory) - -
Oxford (University Observatory) -
Padua ----------
Palermo ----
Paris
Petersburg (Academy of Sciences) -
Pola
Portsmouth --------
Prague
Pulkowa ---------
Quebec ----
Rio de Janeiro - -
Rome (Roman College)
St. Fernando, near Cadiz - - -
Latitude.
o t *
51 28 6 N.
54 20 29*7 N.
54 42 50*6 N.
2"3'8 N.
9-8 N.
48 3
51 20
5* 9
20*3 N.
Si 34 34
N.
38 42 15 '2 N.
38 42 31*3 N.
53 *4 4
N.
55 4i 54*o N.
13 4 8-i N.
40 24 29*7 N.
49 29 12*9 N.
50 48 46*9 N.
54 10 31*8 N.
43 18 19-1 N.
37 49 53*4 S.
45 28 0*7 N.
44 38 52-8 N.
55 45 19-8 N.
48 8 45 N.
40 51 45-4 N.
46 59 51*0 N.
46 58 20-6 N.
46 28 36*2 N.
52 o 33 N.
51 45 36*0 N.
51 45 34-2 N.
45 24 2-5 H.
38 6 44 N.
48 50 13 N.
59 56 29-7 N.
44 5i 49'o N -
3 N.
50 48
50 5
18-5 N.
59 46 18-7 N.
46 48 30 N.
22 53 51*0 S,
41 53 522 N.
36 27 41*5 N.
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m 1
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48-4
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26*5
58-9
49'8
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W.
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88
OBSERVATORIES.
%* The Longitudes are reckoned from the Meridian of Greenwich.
Santiago de Chile ------
Stockholm --------
Stonyhurst (Stonyhiirst College) -
Sthasburg -.-....-
Stdney ----------
Toulouse ....
Tulse Hill, near London (William
Huggins, Esq.)
Turin (New Observatory) - - - -
Upsala (New Observatory) - - -
Utrecht
Venice ----------
Vienna (Old Observatory) - - - -
Vienna (Turkenschanze) - - - -
Warsaw ---------
Washington, (U.S.) (Naval Obs.) -
WlLNA
Windsor, N.S.W. (J. Tebbutt, Esq.)
Latitude,
o § w
33 26 42*0 S.
59 20 34* o N.
53 50 40 N.
48 34 55 -o N.
33 51 41- 1 S.
43 36 47-0 N.
51 26 47 N.
45 4
N.
59 5i 31-5 N.
52 5 10*5 N.
45 *5 49'5 N.
48 12 35-5 N.
52 13 5-7 N.
38 53 38-8 N.
54 . 41 o N.
33 36 30 S.
4
1
o
o
10
o
o
o
I
o
O
I
I
I
5
1
10
Longitude.
m m
42 42*4 W.
12 14-0 E.
527 W.
24
47-3
510 E.
277 W.
9
3*
4
5
E.
E.
30 48-4 E.
10 30*3 E.
20 31*3 E.
49 25-4 -E.
5 3*'3 E.
5 «•» E.
24 7*4 E- ,
8 12- i W.
41 H"9 E.
3 I5-7 E.
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4 8 9
EXPLANATION OF THE ARTICLES
CONTAINED IX
THE NAUTICAL ALMANAC AND ASTRONOMICAL EPHEMERIS
FOR THE YEAR 1882,
All the articles of the Ephemeris have been computed for Greenwich MEAN solar
time ; and where they are given for apparent solar or sidereal time, it has been
chiefly for the convenience of astronomers. A day is the interval of time between
the departure of any meridian from a heavenly body and its succeeding return to it,
and derives its name from the body with which the motion of the meridian is com-
pared. The interval between the departure and return of a meridian to the Sun is
called a solar day ; in the case of the Moon, the interval is called a lunar day ; and in
that of a Star, a sidereal day. The revolution of the Earth on its axis is always
performed in the same time ; and if the heavenly bodies preserved the same positions
with respect to each other, the intervals between the departure and return of a
meridian to each would be the same, and all days, consequently, of equal length.
The Sun, (or more strictly, the Earth in its orbit,) the Moon, and the Planets are,
however, in continual motion ; and with velocities not only different from each
other, but varying in each particular body : the length of a day, as determined by
any of these bodies, is therefore a variable quantity.
Astronomers, with a view of obtaining a convenient and uniform measure of time,
have recourse to a mean solar day, the length of which is equal to the mean or
average of all the apparent solar days in a year. An imaginary Sun, called the
mean Sun, is conceived to move uniformly in the Equator with the real Sun's mean
motion in Right Ascension, and the interval between the departure of any meridian
from the mean Sun and its succeeding return to it, is the duration of the mean solar
day. Clocks and chronometers are adjusted to mean solar time ; so that a complete
revolution (through 24 hours) of the hour hand of one of these machines should be
performed in exactly the same interval as the revolution of the Earth on its axis
with respect to the mean Sun. If the mean Sun could be observed on the meridian
at the instant that the clock indicated o h o m o*, it would again be observed there
when, the hour hand returned to the same position. As the time deduced from
observation of the true Sun is called true or apparent time, so the time deduced
from the mean Sun, or indicated by the machines which represent its motion, is
denominated mean time. *
Mean time cannot be obtained from observation ; but it may readily be deduced
from an observation of the true Sun, with the aid of the equation of time, which
is the angular distance in time between the mean and the true Sun. Suppose
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490 EXPLANATION.
the true Son to be observed on the meridian of Greenwich, Jan. i, 1882 ; it
would then be apparent noon at that meridian ; the equation of time at this instant
is 3 m 53**489 and, by the precept at the head of the column, it is "to be added to
apparent time n ; hence it appears that the corresponding mean time is Jan. 1,
o h 3 m 53**48, or that the mean Sun had passed the meridian previously to the true
Sun, and that at the instant of observation the mean time clock ought to indicate
this time.
A mere inspection of the columns of the Ephemeris is, of itself, sufficient to show
- that the quantities are continually varying, and that some reduction is necessary
where data are to be obtained for any time differing from that for which the
quantities are registered. Take, for instance, the Sun's Right Ascension on Page IL
of the month of January; on January 1, it is i8 h 48* 1**91 ; on January 2, it
is i8 h 52 01 26**50 ; in the course of 24 mean hours it has therefore increased by
4m 24**59. W 9 tnen > tne Right Ascension were required for any time between
January x and January 2, as at January 1, 6 h , it would be necessary to
increase the Right Ascension on January 1, by the proportional part of the
daily increase due for the 6 h , viz., by one-fourth part, or i m 6 s * 15. Let a person
be now supposed to be under a meridian 15 West of Greenwich. The positions of
the heavenly bodies, as referred to the centre of the Earth, are independent of
meridians, and are the same for all places at the same absolute instant ; but the
relative times at Greenwich and the assumed meridian would be different. If it
were i h from mean noon at the one place, it could not be i h from mean noon at the
other ; for time, as regards a visible phenomenon, is considered as the hour angle
of the Sun westward from a given meridian, and at the same absolute moment
of time the Sun cannot be at the same hour angle (reckoning westward) from
two meridians which are 15 distant from each other. Before making use
of the Ephemeris, it is therefore necessary to ascertain, in every instance, the
distance of the Sun (in time) from the meridian of Greenwich, or what is commonly
called the corresponding Greenwich time ; and this is evidently equal to the given
time under the assumed meridian, increased or diminished by the difference (in time)
of the two meridians, according as the assumed meridian is to the Westward or
Eastward of Greenwich. In a mean solar day or 24 mean solar hours, the Earth,
by its rotation from West to East, has caused every meridian in succession from
East to West to pass the mean Sun ; and since the motion is uniform, all the
meridians distant from each other 15 will have passed the mean Sun, at intervals
of one mean hour; the meridian to the eastward passing firsts or being, as compared
with the Sun, always one mean hour in advance of the westerly meridian. When
it is 6 h after mean noon at a place 15 West of Greenwich, it is therefore 7 h after
mean noon at Greenwich ; and it is for this Greenwich time that we must deduce
the quantities * required from the Ephemeris.
The day of the month in this Ephemeris (Page I. excepted, being for apparent
noon) is assumed to begin at mean noon of the corresponding civil day, or at the
instant when a clock shows o h o m 0% Greenwich mean time, and is continued
through the 24 hours, to the following mean noon ; it may therefore be called the
mean astronomical day, although, in practice, astronomers begin the day at the
moment the true Sun's centre is on their meridian.
* Meridian passages, or times of transit, excepted. See examples of the Moon, page 496.
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EXPLANATION. 491
In the civil, or common, method of reckoning, the day commences at the
preceding midnight) and is counted only to 12 honrs or noon, when the 12 hours
are reckoned over again to the next midnight. The civil reckoning is therefore
always I2 h in advance of the astronomical reckoning; hence the well known rule
for determining the latter from the former, viz. : — In civil time, for P.M. make
no change, for A.M. diminish the day of the month by 1 and add 12 to the hours.
Thus : — Jan. 2nd, J h 49™ P.M. civil time, is Jan. 2, J h 49" astronomical time, but
Jan. 2nd, 7 h 49™ A.M. civil time, is Jan. 1, 19** 49 111 astronomical time.
To each month there are devoted eighteen pages, distinguished by the Roman
numerals I. to XVIII.
For convenience of interpolation, the quantities that follow next in order of suc-
cession have been added at the bottom of each page. Thus the quantities opposite
to February 1 will be found inserted also opposite to January 32.
Page 1 contains for every 10th day of the year 1882 —
The Obliquity of the Ecliptic, or the apparent inclination of the plane of the
Ecliptic to that of the Equator.
The Sun's Horizontal Parallax, or the angle under which the equatorial
semidiameter of the earth would appear at the Sun's centre.
The Sun's Aberration or the difference between the true longitude and the
apparent longitude of the Sun. The longitudes derived from Solar Tables in-
clude aberration and are therefore apparent longitudes, such as are contained in
this ephemeris. If the true longitude of the Sun be required, the aberration must
be added to the apparent longitude.
The Precession in Longitude or the retrograde motion on the ecliptic of the
point of intersection of the Equator and Ecliptic or first point of Aries : which is
required for reducing a longitude reckoned from the Mean Equinox of any date
to that of any other date.
Nutation. The true place of the equinox at any time differs from its mean
place by a quantify termed the Nutation, to be applied with the proper sign to a
longitude reckoned from the mean equinox to obtain the value with respect to
the true equinox. The Nutation in Bight Ascension similarly serves to find the
apparent point of intersection of the Ecliptic on the Equator. In the same
manner the Nutation in Obliquity is required to reduce the mean to the true
obliquity.
The Mean Longitude of the Moon's Ascending Node. The place for any
intermediate day is readily found from the daily motion — 3'' 1773*
Page-I. of each Month.
The contents of this page are adapted to apparent noon, or the instant when the
Sun's centre is on the meridian of Greenwich. The Sun's Right Ascension, here
given, is affected with aberration, and reckoned from the true equinox ; it is there-
fore the sidereal time at apparent noon, or the time which should be shown by a
sidereal clock, at that instant. The Sun's Apparent Declination is the angular dis-
tance of the Sun from the equator, measured on the meridian.
The Var. in 1 hour is intended to facilitate the reduction of the quantities from
apparent noon to any other time. It is the variation at noon, and requires to be
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49a EXPLANATION.
redcced to midway between noon and the time at which the RJL, Dec* or Eq. of
time is required. Example : — Required the Sun's Declination on Jan. 16th, 1882,
at apparent noonnn longitude 6o° West of Greenwich ; the longitude in time is 4 h ,
and being West, the corresponding apparent astronomical time at Greenwich is
Jan. 16, 4 h ; the var. of the Dec* in 1 hour at Jan. 16, o h or noon is 28"* 88, and
at Jan. 17, o h it is 29"' 87, therefore for midway between Jan. 16, o h and 4 h it is
28"*96, which multiplied by 4 gives 1' 55"*8 to be 'subtracted from the Dec. at
noon, or S. 20 53' 54"- 2 ; the Dec required is therefore S. zo° 51' 5 8" '4.
The Sidereal Time of the Sun's Semidiameter passing the Meridian is useful for
reducing a transit observation of either limb of the Sun, when one only has been
observed, to the transit of the centre.
The Equation of Time is the difference between apparent and mean time, and
therefore serves for the conversion of either time into the other. The numbers here
given show, for Greenwich apparent noon, the distance of the mean Sun from the
meridian, or the portion of time to be added to or subtracted from, (according to the
precept at the head of the column,) Greenwich apparent noon to obtain the corre-
sponding mean time at the same meridian, or the time which should be shown
by a mean time clock.
Where time is deduced from observations of the Sun, the immediate result is
apparent time ; to convert it into mean time the equation of time is necessary.
Thus, suppose the apparent time deduced from an observation of the Sun on
Jan. 16th, 1882, in longitude 45 or 3 11 East of Greenwich, to be 6 h P.M. civil time,
and it were required to convert it into mean time; subtracting the difference of
longitude 3 h from the apparent time at the place, we have Jan. 16, 3*' for the
corresponding astronomical apparent time at Greenwich. The variation of the
equation in 1 hour at January 16, o b or apparent noon is ©••849, and at
Jan. 17, o b it is o $, 820, consequently, for midway between noon and 3 b ,
or i h 30™, it is o"847, which multiplied by 3, gives * B '54 to be added
(because the equation is increasing) to io m 4**15, the equation of time
at apparent noon, the result is io m 6 B '6o, to be applied according to the
precept at the head of the column, whence we obtain 6 h io m 6**69 *° r tne
mean time required.
At page I. of the month of April, ^ to at the head of the column signifies
that a change of precept occurs in the course of the month ; and between the
equations opposite to April 14 and 15, the black line indicates that the change
occurs between those days. The upper precept applies to all the quantities above
the black line ; and the lower to all below it : that is, the equation of time is to
be added to apparent time to the instant at which the equation becomes o m o»,
which happens between April 14 and 15 ; but after that instant the equation is to
be subtracted from apparent to obtain mean time.
Page IT. of each Month.
The Sun's Apparent Right Ascension and Declination at mean noon denote the
apparent position of the true Sun with reference to the equator, and the true
equinox, at the instant the Greenwich mean time clock indicates o h o ra o 9 , or when
the hour angle of the true Sun is equal to the equation of time.
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EXPLANATION. 493
To find the' Bight Ascension and Declination for any other mean time and place,
as at io h i6 m A.M. civil time, March 2nd, 1882, in longitude 98 , or 6 h 32™, West
of Greenwich. The astronomical time corresponding to io h i6 m A.M. March 2nd,
is March 1, 22 h i6 m ; the longitude, being West of Greenwich, must be added to
March 1, 22 h i6 m , and the result, March 2, 4 h 48% is the corresponding Green*
wich mean time, for which the Right Ascension and Declination are to be found.
The difference between the Right Ascensions on March 2 and 3 is 3™ 43 s * 77,
that is, in the 24 mean hours succeeding March 2, the Right Ascension has
increased by this quantity, and the increase in 4 h 48° is obtained by the propor-
tion: — 24* : 3 m 43»*77::4 h 48™ : 44 , *75; which, being added to 22 h 53™ o**45,
the Right Ascension on March 2, gives 22 h 53* 45**20 for the Right Ascension
at the time proposed*
In a similar manner the Declinations indicate a decrease of 22' 57**4 in the
24 hours; therefore, 24 h : 22' 57" , 4::4 b 48 ,n : 4' 35^-5, which, subtracted from
S. 7 7' 34 v, 4, leaves S. 7 2 f 58" '9 for the Declination required. Correction for
second difference would increase the Right Ascension by o**o4, and the Declination
byo"- S .
The Semidiameter of the Sun is the angle at the centre of the earth subtended
by the Sun's semidiameter, and is required for reducing observations of the
limb to the centre, as in measuring the altitude of the Sun's upper or lower limb,
or the distance of the Moon from the Sun.
The Equation of Time at mean noon serves more particularly to convert mean
into apparent time by applying the equation according to the precept at the head of
the column : thus, if from mean noon of April 2, or April 2, o h , be subtracted the
equation 3 m 3 5** 93; April 1, 23** 56 m 24**07 is the corresponding apparent time.
To find the equation of time at n h $% m A.M. civil time on April 15th, in longitude
1 5 , or i h o m , East of Greenwich. Subtract the difference of longitude from the
given time, because it is East, and the corresponding astronomical mean time at
Greenwich is April 1 4, 22 h 5 8 m . The variation in 24 hours is 14 s • 92, that is, the sum
of the equations belonging to April 14 and 15, because the equation has decreased
to zero and then increased in the interval, therefore 24 11 : 14* '92 : : zz h ^ m *■ 14**28,
which, being greater than o m 13 s '98, the equation on April 14, which was decreas-
ing, shows that in the 22 h 58* the equation has passed through zero or o, and is now
increasing, and the difference 0**30 is the equation of time at the time pro-
posed to be added to mean time.
Sidereal Time at Mean Noon is the angular distance of the first point of Aries, or
the true vernal equinox, from the meridian, at the instant of mean noon : it is there-
fore the Right Ascension of the mean Sun, or the time shown by a sidereal clock at
Greenwich, when the mean time clock indicates o h o m o s .
The sidereal time here given is that in common use among astronomers, and
expresses the actual hour angle from the meridian, westward, of the true equinoctial
point at the moment of observation. It is therefore affected with the equation
of the equinoxes ; and is not^ strictly speaking, a mean or uniformly increasing
quantity. It ought, therefore, to be termed apparent sidereal time in the same
manner as apparent solar time reckons from the actual arrival of the sun's centre
on the meridian ; and in like manner, as mean solar time is reckoned from the
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494 EXPLANATION.
arrival of an imaginary sun, moving uniformly with its mean velocity, so mean
sidereal time or Q 8 mean oiigitu e wou j d ^e rec t ned from the transit of not the
IS
true, but the mean equinoctial point. The smallness of the fluctuations to which a
clock, regulated to apparent sidereal time compared with one regulated to mean
sidereal time, is subject (being at the utmost only 2**3 in a period of nineteen
years), has prevented the practical inconvenience of this from being felt: no clock
being sufficiently perfect to go during so long a period without frequent re-adjust-
ment; 'and as the corrections applied by astronomers to the observed right ascen-
sions of all objects are adapted to this supposed irregularity in the rate of the clock,
the mean right ascensions thence deduced will be correct.
The sidereal time at mean noon is useful when mean solar time is to be
deduced from observation, and for the reduction of sidereal to mean solar
time, also vice versd\ by a Table of Acceleration of Sidereal on Mean solar
time, and the corresponding Table of Retardation of Mean on Sidereal time,
according to the following rule : — Convert the interval from the mean noon imme-
diately preceding, from the denomination given, to that required ; and if mean time
be required, the result will be that which the clock should show ; but if sidereal
time be sought, the result must be added to the sidereal time at the preceding
mean noon.
Example: — To convert 22 h z$ m 48* * 66 sidereal time, January 2 1, 1882, into mean
solar time, for the meridian of Greenwich.
h m b
Sidereal time given - - - 22 25 48*66
Sidereal time at mean noon, January 21 • - - - 20 2 59*64
Interval in sidereal time from mean noon - - - - 22249*02
Retardation of mean on sidereal time for the interval — 23 '40
Mean solar time required --------- 2 22 25*62
which is the interval elapsed since mean noon ; and the time on a mean time
clock.
Vice versd, to convert 2 h 22 m 25**62 mean solar time into sidereal time for the
same meridian.
b m b
Mean interval from mean noon, January 21 - - - 2 22 25*62
Acceleration of sidereal on mean time for the interval + 23 '40
Sidereal interval /row mean noon - - - - - - 2 22 49*02
Sidereal time a* mean noon, January 21 - - - - 20 2 59*64
Sidereal time required - - - - - - - - - - 22 25 48*66
which is the time on a sidereal clock at the instant in question.
If the place of observation be not on the meridian of Greenwich, the sidereal time
must be corrected by the addition of 9** 8565 for each hour (and proportional parts
for the minutes and seconds) of longitude, if the place be to the West of Greenwich ;
but by its subtraction, if to the East. Thus in 9 h io m 6« West longitude, the sidereal
time at mean noon, January 21, must be corrected by adding i m 30 , *37, thus giving
2o h 4« 3o«*oi for the time to be used.
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EXPLANATION. 495
The conversion of mean solar to sidereal time, and vice vend, may, however, be
performed, perhaps, with less liability to error, by the Tables of Time Equi-
valents, pp. 478 to 481. These Tables differ from the Tables of Acceleration
and Retardation, in containing the values of intervals of each species of time,
expressed in terms of the other, instead of the corrections.
Page m. of each Month.
The Sun's Longitude, here given, w affected with aberration, and reckoned from
the true equinox : it is therefore the apparent longitude of the Sun at the instant of
mean noon ; or it is (if R denote the Radius Vector) the true Longitude of the Sun
at the time o b — 497**78 R, aberration causing the Sun to appear behind its true
place in the Ecliptic.
The Sun's Latitude is the angular distance of the Sun's centre from the plane of
the Ecliptic, measured on a circle perpendicular to that plane.
The Logarithm of the Radius Vector of the Earth is the logarithm of the distance]
between the centre of the Earth and the true place of the centre of the Sun at I
mean noon, the mean distanc e, or the semi-axis major of the orbit, being considered 1
unity . — **tcr7JU Art fa *m+H* Mm—tSif Z* fc j* j fi^S^ k^ <f Z & /***>
The Mean Time of Transit of the First Point of Aries is the distance of the
mean Sun from the meridian, at the instant when the true point of intersection of
the ecliptic and equator (called the first point of Aries) is on the meridian of
Greenwich; and as the distance of the first point of Aries from the meridian, at the
instant the mean Sun is on the meridian, is denominated sidereal time at mean
noon, this may, by analogy, be termed the mean time at sidereal noon. It is the
time on the mean time clock adjusted to the Greenwich meridian, at the moment
that the sidereal clock indicates exactly o h o m s . The use of this column is to
facilitate the reduction of sidereal to mean solar time, with the help of the Table
of Time Equivalents, given at pages 480 and 481.
The Moon's Semidiameter is the angle under which her Semidiameter would
appear if viewed from the centre of the Earth ; and the Horizontal Parallax is the
greatest angle under which the Earth's equatorial semidiameter would appear if
seen from the centre of the Moon. The former is requisite to obtain the position of
the centre from an observation of the Moon's limb, as in all cases of altitudes or
lunar distances 5 the latter, for computing the horizontal parallax of the Moon at
any given latitude on the Earth, considered as a spheroid; also for finding the
parallax in altitude, right ascension, &c, for reducing an observation of the Moon,
to what it would be if made at the centre of the earth.
Example. To find the Moon's semidiameter and horizontal parallax at 5 h AM.
civil time, March 6th, 1882, at a place 15 , or i h to the East of Greenwich. The
equivalent mean astronomical time at the place, is March 5, iy\ from which
subtracting i h , because the place is to the East of Greenwich, we have March
5, i6 h for the corresponding time at Greenwich, or 4 h after midnight For
ordinary purposes, it will suffice to take the proportional part of the difference
in the 12 hours which include the given time for the correction of the preceding
registered value; thus the semidiameter for March 5, i2 h or midnight, is
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496 EXPLANATION.
14' 48"*o, and for 6, o* or noon, it is. 14' 5o"'0 5 the difference is 2"*o.
Therefore, I2 h : 2"*o :: 4 h : o"*7, which added (because the quantities are
increasing) to 14' 48" 'o, gives 14' 48"* 7 for the Moon's semidiameter at the time
proposed. Similarly the horizontal parallax for March 5, i2 h or midnight, is
54' 1 3" # 5 ; and for 6, o h or noon, it is 54' 2o"'6 ; the difference is f m 1 ; there-
fore, I2 h : 7"- 1 :: 4 h : a"'4, which added to 54' I3"*5 gives 54' 15"' 9 for the
horizontal' parallax required. If greater accuracy be desired, a correction must
be applied, on account of second differences.
Page IV. of each Month.
The Moon's Longitude and Latitude at mean noon and midnight indicate the
position of the Moon at these respective times, referred to the Ecliptic and the
true equinox, as it would be seen from the centre of the Earth. They are the
results deduced immediately from the lunar tables, and are the foundation of
all subsequent calculations in which the Moon is concerned.
The Moon's Age at mean noon is the mean time elapsed since the Moon's
ecliptic conjunction with the Sun, or since the Sun and Moon had the same
Longitude.
The Moon's Meridian Passage is the Greenwich mean astronomical time, at
which the Moon's centre is on the upper or lower meridian of Greenwich. The
asterisks indicate the day that the Moon does not pass the upper or lower
meridian at Greenwich. This occurs in every lunation, in consequence of
the lunar day being longer than the mean solar day, and including it within
its limits.
The mean astronomical time of upper transit under any other meridian m&j
be obtained by subtracting or adding, the proportional part of its preceding or
following difference, due to the longitude according as the longitude is East or
West of Greenwich.
Example. To find the mean astronomical time of the Moon's upper transit
on Jan. 27th, 1882, about 8 h a.m. civil time, in longitude 6o° or 4 h East of
Greenwich, Jan. 27 a.m. is Jan. 26 astronomical time ; on Jan. 26 the upper
meridian passage is 6 h I2 m, i and the preceding difference 5i m *6 f therefore
24 h : 5i m# 6::4 h : 8 m *6 to be subtracted from 6 h I2 m# i because the longitude is
East of Greenwich, giving 6 h 3 m "5 for the time required. Had the longitude
been West of Greenwich the following difference must have been taken, and the
result would have been 24 h : $i m 'g ::4 h : 8 m# 7 to be added to 6 h 12™' 1.
The times thus deduced are sufficiently accurate for the purposes usually
required.
Pages V. to XII. of each Month.
The Moon's Right Ascension and Declination for every hour of the day, with the
Variations of Eight Ascension and Declination tn. 10 minutes. The numbers
represent the position of the Moon, as it would appear from the centre of the
Earth with respect to the equator and the true equinox. The Right Ascension
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EXPLANATION. 497
for any time is obtained in the following manner: Reduce the "Var. of R.A.
in io®" to midway between the time for which the Bight Ascension is re-
quired and the preceding honr in the Ephemeris, and then obtain the cor-
rection by simple proportion. Thus, suppose the Bight Ascension of tho
Moon wore required at 9 h 40™ a.m. mean civil time on January 2nd, 1882,
or January 1, 2i h 40™ mean astronomical time, in longitude 6o°, or 4 h
East of Greenwich. The given time, 2i h 40", diminished by 4 h , gives the
corresponding Greenwich time i7 h 40™. The " Var. in io m /' at 17* is 22 s - 124,
and at i8 h , 22 ,, O90; for 17** 20 m it is 22 a, u6. Hence, as io m : 22»*ii6::
40™ : i m 28 8# 46, which .being added to 5 h 54 m 40»'8i, the Right Ascension at
I7 h , gives 5 h 56™ 9 8# 27 for the Right Ascension at the time proposed. The
Declination is found in a similar manner. In the present case the time is
i7 h 4o m ; the "Var. of Dec. in io m " at i7 h , is 23" # 47, at i8 h , z$"'5$; for
i7 h 2o m it is therefore 23"*83. Hence, io m : 2i"'%i :i^6 m : 1' 35"'3, which
being subtracted (because the Declinations are decreasing) from N. 21 40' 12"* 4,
the Declination at I7 h , gives N. 21 38' 37"* 1.
The Phases of the Moon. These are given at page XII. The numbers denote
the Greenwich mean astronomical time, at which the difference of Longitude
between the Sun and the Moon is o°, 90 , 1 8o°, or 2 70 , being
o° at the New Moon,
90 at the First Quarter,
180 at the Full Moon,
270 at the Last Quarter.
The Moon's Apogee and Perigee. The numbers here given indicate, to the nearest
hour, the Greenwich mean time at which the Moon is respectively at her greatest
and least distance from the Earth. *
Pages XHI. to XVHL of each Month.
Lunar Distances. — These pages contain, for every third hour of Greenwich mean
time, the angular distances, available for the determination of the longitude, of the
apparent centre of the Moon from the Sun, the larger planets and certain stars
as they would appear from the centre of the Earth. When a Lunar Distance has
been observed, and reduced to the centre of the Earth, by clearing it of the effects
of parallax and refraction, the numbers in these pages enable us to ascertain
the exact Greenwich mean time at which the objects would have the same
distance. They are arranged, from west to east, commencing each day with the
object which is at the greatest distance westward of the Moon, in the order
in which they appear ; W. indicating that the object is west, and E. east of the
Moon.
The columns headed "P.L. of diff. w contain the proportional logarithms of tho
differences of the distances at intervals of three hours, which are used in finding the
Greenwich time corresponding to a given distance, according to the following rule,
viz. : Take the difference between the reduced distance and the nearest distance
32 (NAUTICAL ALMANAC> l882.) 2K
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498 EXPLANATION.
preceding it, In order of time, in the Ephemeris ; from the proportional logarithm
of this difference subtract the proportional logarithm in the Ephemeris; the
remainder will be the proportional logarithm of a portion of time to be added to
the hour answering to the nearest preceding distance, to obtain the approximate
Greenwich mean time corresponding to the given distance.
If the distance between the Moon and a Star increased or decreased uniformly,
the Greenwich times corresponding to a given distance, as found by the above rule,
would be correct ; but as this is not the case, a correction must be applied to
the time so found for the variation of the differences of the distances. This
correction may be obtained by means of the Table at page 48a of the present
volume, in the following manner :
1. Find the approximate interval by the preceding rule.
2. Take the differences between the proportional logarithm following the distance
in the Ephemeris, and the proportional logarithms immediately to the left and
right, and note the. mean of these differences.
3. With the approximate interval and this mean difference, as arguments, take
out the correction from the table.
4. If the proportional logarithms are decreasing, add the correction to the
approximate time; but if increasing, subtract it: the result will be the Greenwich
mean time.
Example L — Suppose it were required to find the Greenwich mean astronomical
time, at which the reduced distance between the Moon and a Aquils would be
44 40' 8" about April 14th, 188*. It appears, by inspecting the distances,
that the nearest distance preceding it, in order of time, is that on Apr. 14 at III 11 ,
therefore,
q 1 n
Distance at IIP 1 - 44 19 18 andP.L. - - 3069
Reduced Distance - 44 40 8
Difference - - o 20 50 - - P.L. - - 9365
Approximate Interval o h 42" 14* - P. L. - - 6296,
The proportional logarithm following the distance in the Ephemeris is 3069,
those immediately to the left and right are respectively 3138 and 3006, the
differences are therefore 69 and 63, and the mean of them, 66.
Opposite to o h 42° 14 s (or the quantity nearest to i^ o h 40™), and under 66
in the table, we have for the correction 14 s , which, added to the approximate
interval, o h 42 m 14", because the proportional logarithms are decreasing, gives
h 42m 28 s , for the true interval after III 11 : the Greenwich mean astronomical
time is therefore Apr. 14, 3 h 42" 28 s . The omission of this correction would
produce an error of less than 4' in the Longitude.
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EXPLANATION. 499
It will sometimes happen, that the mean difference of the proportional logarithms
will exceed the limit of the table of correction ; in this case the table may be
entered with the approximate interval, and any fraction of the difference and
the corresponding correction increased in like proportion.
Example IL — Suppose it were required to find the Greenwich mean astronomical
time, at which the reduced distance between the Moon and a Aquike would be
35° 3°' 3 1 " about Apr. 13th, 1882. By inspecting the distances, it appears that
the nearest preceding is on Apr. 1 3, at VI h 5 therefore,
Distance at VP - 344636 andP.L. - - 3789
Reduced Distance - 35 30 31
Difference - - - o 43 55 - - P.L. - - 6126
Approximate Interval i h 45 m 5*- -P.L. - - 2337
The mean difference between the proportional logarithms determined as in the
preceding example is 156, one-half of which is 78; under 78 in the table,
and opposite i h 50™, is 23 s : the correction is therefore 46* to be added to
the approximate interval, because the proportional logarithms are decreasing;
the Greenwich mean astronomical time is therefore Apr. 13, 7 h 45"" 51*. The
omission of the correction would produce an error of 12' in Longitude ; it
may, however, be considered as an extreme case, and such as will seldom be
met with.
The proportional logarithms also indicate the star most favourably circum-
stanced for observation ; that star being preferred which has the least pro-
portional logarithm opposite to it ; for, the greater the velocity of the Moon
from or towards a Star, the greater is the reliance to be placed on an observa-
tion of the distance ; and as proportional logarithms decrease as their natural
numbers increase : a smaller proportional logarithm indicates a greater velocity
of the Moon, or a greater variation of distance in the interval, upon which the
value of the observation depends. It is not to be inferred from these remarks
that observations of any of the distances are to be neglected ; on the contrary,
every registered star should invariably be observed when possible.
Sun's Co-ordinate. (Pages 218 to 225.)
These pages contain for each Greenwich mean noon and midnight the Sun's true
Geocentric Co-ordinates X,Y,Z ; X being measured ont a line passing through the
true vernal Equinoctial point of the date ; Y, on a line in the plane of the
Equator, in the direction of the first point of Cancer ; and Z, perpendicular to
the plane of the Equator, towards the North. The Reductions are given for
converting the co-ordinates X, Y, Z> referred to the true equinox of the date, into
co-ordinates referred to the mean equinox of January 1, 1882.
2 k 2
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5 oo EXPLANATION.
Apparent Obliquity of the Ecliptic. (Pages 218 to 225.)
These pages contain the Apparent Obliquity of the Ecliptic for each Green-
wich mean noon, including the effect of 2 ([ .
Planetary Ephemerides at Mean Noon* (Pages 226 to 269.)
These pages contain the Geocentric and Heliocentric places of tho Planets,
Mercury, Venus, Mars, Jupiter, Saturn, Uranus, and Neptune.
The Geocentric places are the places of tho centres of the planets, as they would
appear from the centre of the Earth ; the Heliocentric, such as they would appear
from the centre of the Sun. The Geocentric Right Ascensions and Heliocentric
Longitudes are reckoned from the true equinox. The Geocentric Right Ascen-
sions and Declinations are affected with aberration, and are therefore apparent
positions.
The " Meridian Passage n is the mean time of the Planet's transit over the
meridian of Greenwich. As in the instance of the Moon before noticed, the
days on which Mercury and Venus do not pass the meridian, are indicated by
asterisks. If we refer to page 226, we shall find that Mercury does not pass over
the Greenwich meridian on Jan. 3, and for a similar reason, viz., that tho
planetary day is longer than the mean solar day, and includes it within its limits.
Another phenomenon takes place in the case of the planets ; it is that of two
transits on the same day, which arises from the planetary day being sometimes
shorter than the solar day, commencing after and terminating before the solar
day. When two transits occur, the times of both are registered, as at page 227,
Feb. 22, where it appears that Mercury passes the Greenwich meridian 7 m 5
after mean noon of Feb. 22, and again at 23 h 59™ '6 on the same day, or o m '4
before the following Mean Noon.
To find the Right Ascension and Declination of Mercury for any other
mean time and place as at 6 h P.M. mean civil timo on Feb. nth, 1882, in
longitude 30 West of Greenwich ; also the time of Mercury's passage over this
meridian. The difference of longitude 2 h , added (because it is West) to the
given time, gives Feb. n, 8 h for the corresponding Greenwich mean astronomical
♦time.
1. For the Right Ascension. The Right Ascension on Feb. 1 1, is 22 h 4i ro 5* • 75,
and on Feb. 12, it is 22 h 4i in 35 ,# 73 ; the difference 29 s -98, is the increase of
the Right Ascension in 24 mean hours; therefore 24 11 : 29* "98 :: 8 h : 9* "99,
the proportional part for 8 h to be added (because the Right Ascensions are
increasing) to 22 h 4i m 5«* 75, the Right Ascension at Feb. n, o b or noon, gives
22 h 4i m I5 $, 74 for the Right Ascension required, on the assumption of invariable
first difference ; including the effect of second difference, the Right Ascension,
would be 22 h 4i m i9 s '9S.
2. For the Declination. The Declination on Feb. 11, is S. 6° 17' s6**6, and
on Feb. 12, it is S. 5 57' 37*" 1, tho difference, 20' 19"' 5, is the decrease in 24
hours ; and the proportional part for 8 h is 6' 46* -5, which, subtracted from the
Declination at Feb. 11, o h or noon 9 gives S. 6° n' io* # i for the Declination
required ; the effect of second difference would be to increase this quantity by
27-7. _
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EXPLANATION. 501
3. For the Meridian Passage. Take the difference of the times of two con-
secutive transits ; and considering this difference as an acceleration or retardation
of the Meridian Passage while the planet has passed over 24 h of geographical
longitude, take the proportional part of it, due to the difference of meridians, for a
correction to be applied to the Meridian Passage at Greenwich, bearing in mind
that in East longitude the passage precedes that at Greenwich, when times are
accelerated, and follows it, when they are retarded ; and the contrary in West
longitude. In the present case Mercury passes the meridian of Greenwich at
Feb. 11, i h I5 m# i, and again at Feb. 12, i h ii m *7, the difference is 3 m '4, there-
fore 24 11 : 3 m, 4 :: 2 h : o ,n, 3, the proportional part to be subtracted from i h i5 m *i,
(because the passages are retarded, and the longitude is West of Greenwich,) -
which gives Feb. 11, i h 14™" 8, mean astronomical time, or Feb. nth, i h i4 m *8
P.M. .civil time at the given place, for the Meridian Passage. Unless great
accuracy is required this method will suffice.
Planetary Ephemerides at Transit. (Pages 270 to 289.)
Those pages contain the Right Ascension and Declination at Transit over the
Meridian at Greenwich, within the limits stated in the Preface to the Nautical
Almanac for the Year 1861, which are readily reduced (approximately) to
the time of transit over any other meridian by means of their Variations in
1 hour of Longitude. These variations apply to the time of transit over the
meridian of Greenwich, and therefore require to be reduced to the longitude
midway between Greenwich and the place at which the Right Ascension or De-
clination is required. As they are given at intervals of two transits, or 48 hours
of longitude, proceed thus : — If the long, is East take the diff. between the given
and preceding variation — if West, between the given axxii following one ; in either
ease as 48'' is to the diff. of variation, so is half the longitude in time to the
correction required. For the intermediate day add 24 h to half the longitude in
time. Then prefix the sign — to the Longitude of the proposed meridian if it
be East of Greenwich, but + if it be West, and multiply it by the corrected
variation ; the product will be the reduction for the proposed meridian. Example:
Suppose the Right Ascension and Declination of Mercury were required in
longitude 6o° or 4 11 East, on Jan. 3, 1882. The Right Ascension on Jan. 3 is
i8 h 56™ 3* -63 and its " Var. in 1 hour of Long." + 17* -77, which corrected
as above is + 17 s '76 : the product of + 1 7 s • 76 and — 4 h is — 71* -04, which,
applied to i8 h 56 ,n 3**63, the R.A. at Transit at Greenwich, gives i8 h 54™ 52 s '59
for that at the place. The Declination on Jan. 3 is S. or — 24 36' 28" '5, and
its variation + 14"' 4, which corrected as above is -+■ 13"* 8, and the product of
4- 13"- 8 and — 4 h is — o' 55"- 2, which applied to S. or — 24 36' 28"* 5, gives
S. 24 37' 23"* 7 for the Declination. Had the day been Jan. 2, the corrected
variation of the Right Ascension would have been + 17**72, and that of the
Declination, 4- 10" -4.
The "Sid. Time of Sera. pass. Mer." (Sidereal Time of the Semidiameter
passing the Meridian,) serves to reduce an observation of the Right Ascension of
the limb, to that of the centre, the " Semidiameter " a similar purpose for the
Declination, and the " Hor. Par." (Horizontal Parallax) for reducing an observa-
tion to the centre of the earth.
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502
EXPLANATION.
Stars. (Pages 290 to 366.)
In pages 290 to 293 are the Mean Right Ascensions and Declinations of 197
Stars for Jan. 0— 0^046, 1882 and their Annual Variations. North Declination
is denoted by + and South Declination by — .
The Logarithms A, B, C, D, pp. 295 to 302, and " Quantities for correcting
the places of Stars," pp. 303 to 310, have been computed by BessePs formal® with
the coefficients of Peters, p. 294, omitting in C and D the terms —0*00405 sin
2 d and — o"-o885 cos 2 ([ : the logarithms of E, F, 6, H and the value of L, by
the formula in the introduction to the Greenwich Twelve-year Catalogue (Volume
of Greenwich Observations for the year 1847). The following examples will fllo*-
trate the three methods. The reduction of Right Ascension by the independent
" Quantities " is obtained in arc*
Required the Reduction (A a) of the Right Ascension and (A ft) of the Declination
of 7 Ononis (No. 1687 of the Catalogue of Stars of the British Association for
the Advancement of Science. London, 1845. 4to.) for Precession, Proper
Motion, Aberration, and Nutation, at Greenwich mean midnight on December 5,
1882.
h m 8
Mean a, Jan. 1, 1850 - - - -5 17 5-33
3 2 years' precession and proper motion + 1 43 ■ 06
[ean a, Jan. 1, 1882 - -
• -
5 »8 48-39
I.— By B. A.C. Constants and
a - «
A -
Logarithms.
- - + 8*0963
• - + 0-7184
Nat. Nos.
sA- -
• - T 8-8I47
• -
s
- + 0-065
b -
- - + 8-8188
B - •
■ - + 1-2930
6B- -
• - + o-iii8
- -
- + 1-294
e - •
C - ■
• - + 0-5070
• - + 0-0718
eC- .
- - + 0-5788
- -
- + 3-79 1
d - .
D - •
• + 7*1304
■ - + 0-8105
rfD- -
• - + 7-9409
• .
- + 0-009
<Ac- -
- -
- + 0-006
A a
= + 5*165
Mean 5 ---...- + 6 11 34*3
32 years' precession and proper motion +1 $6'1
Mean 8 ...... . + 6 14 3 I<0
the Logarithms of A, B, C, E>.
Logarithms.
+ 9-5120
+ 0-7184
A- - -
a' A - -
y- - -
B- - -
VB - -
</- - -
C- - -
&Q. - .
<?- - -
D - .
d'D - .
fAc'- -
+ 0-5721
+ 0-0718
+ 0-6439
- 9*9923
+ 0-8105
0-8028
Kit Voa
+ 0-2304 - - - + 1-70
+ 8-3039
+ 1-2930
+ 9*5969 - - - + o-4°
- - + 4'4°
- - - 6-35
. - — 0*01
Aftsr +0*14
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EXPLANATION.
503
H— By Constants in Greenwich 7-year Cat for i860 and the Logarithms of E, F, G, H,
and value of L.
•
s
•
Logarithms.
. 0*08362
- 1 -48041
1-56403
4
-
- 0*10241
- 1*64967
1*75208
'0
-
- I-4S048
- 0-37656
1*82704
h
H
-
- 0-07967
- i'4978«
1-57748
Nat. Nos.
s
36*646
56-504
67-149
tAc
- - - - 37*799
Value of/ 84*152
Value of L 22*911
Sum - - 305*161
Constant — 300*000
- - - + o*oo6
Reduction of Right Ascension + 5-167
F
<
h'
H
Logarithms.
- 9*94201
- 1-48041
1*42242
- - 0*07192
- - 1-64967
'-72159
• - 1-32863
- " 0*37656
'•70519
- - o- 33904
- - i*4978i
1-83685
Value of /'
Value of L
Nat. Nos.
*6'45
52*67
50-72
68-68
78-47
22*91
- 299-90
tAc*
Sum
Constant — 300*00
- - - + o-oi
Reduction of North Polar Distance — o * 09
III. — By the independent Quantities.
o / o /
G= 15 16 H=i4 55
a (in arc) = 79 42 ----- • - 79 42
G + 0=9458
Logarithms.
/
Log.? - - + '-3897
sin (G+o) + 9*9984
tan 9 - - + 9*0395
+ 0*4276
Log. h - - + '-3079
sin (H + a) + 9*9986
sec & - - + 0*0026
+ 1*3091
the
Nat. Nos.
+ 54-38
+ 2*68
+ 20-38
+ 0*09
A a (in arc) ss + 77-53
A*(inHme)ss + 5**169
H
+ (
x =
= 94 37
Log. a
cos(&
+
«)
Logarithms.
+ 1-3897
- 8-9374
+
«)
+
+
0-3271 - - •
Log. A
cos (#
sin ft -
1-3079
8-9057
90369
-
9*2505 - - -
Log. t
cos 9 -
-
-
+
+
+
o-3558
9-9974
o*353» - - -
t&c'
Nat Nos.
H
— 2*12
- — 0'l8
+ 2*26
— o-oi
A &= —0*05
h m • b h m t
5 18 48-39 + 5-17 = 5 '8 53*56
010 n o 1 *
+ 6 14 31*0 - o'l as 4- 6 14 30*9
App. Right Ascent, of y Ononis
Apparent Declination - - - -
The Apparent Places of a Urae Minoris, Cephei 51 (Her), & Ursae Minoris,
Octantis, and X Urea Minoris are given for every day of the year and are
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504 EXPLANATION.
corrected for the terms which involve 2 d . Those of the remaining 192 Stars
are given for every tent/i day.
The hours and minutes of Right Ascension, and the degrees and minutes of
Declination, are placed at the heads of the columns as constants, and belong
equally to all the numbers below them. This arrangement has rendered it necessary,
in numerous instances, to continue the seconds beyond 60, as the width of the page
would not permit of otherwise indicating any change in the minutes. Thus, the
apparent Right Ascension of <r Arietis at page 324, on Nov. 7, 1882, is regis-
tered 2 h 44 m 63* "68, and is to be read 2 h 45™ 3* -68.
The small figures on the right are the differences of the Right Ascension and
Declination in 10 days, and serve to find the values for an intermediate day. As
in the case of the Planets before explained, a Star will sometimes arrive at the
meridian twice in one apparent solar day. When this occurs on one of the given
dates, the Star's place is registered for each transit as at page 319, for y Pegasi on
March 22 ; but in other cases the day of the month on which two transits occur is
placed opposite to the interval. In these particular instances the Star passes the
meridian 11 times in the 10 apparent solar days, and consequently the Right As-
cension or Declination at transit on any intermediate day is to be determined by
taking Ath part, instead of fVth, of the variation in the interval. Thus, at page 322,
we find in the instance of j9 Arietis the figures 18 opposite the interval between
April 11 and April 21, indicating that the double transit occurs on April 18, and a
difference of 0**07 opposite to the interval between the seconds belonging to
those dates, rY of which is *oo6 ; for the first transit on April 18, we should there-
fore multiply *oo6, by the days elapsed since April 11, but for the second transit
on April 18 and following transits by the days elapsed increased by 1.
A correction of the Right Ascension for daily aberration is necessary where
extreme accuracy is required, of +0**0206 cos p sec & for the upper transit and
— o 8 '02o6 cos <p sec & for the lower transit, <p denoting the Latitude of the place,
and 8 the Declination of the Star.
Moon* Culminating Stars. (Pages 367 to 396.)
Those Stars are denominated Moon-Culminating Stars, which, being near the
Moon's parallel of Declination, and not differing much from her in Right Ascension,
are proper to be observed with the Moon, in order to determine differences of meri-
dians. This is effected by comparing the differences of the observed Right Ascensions
of such a Star and the Moon's bright limb at any two meridians. If the Moon had no
motion, the difference of her Right Ascension ^from that of the Star would be constant
at all meridians ; but in the interval of her transit over two different meridians, her
Right Ascension will have varied, and the difference between the two compared
differences will exhibit the amount of this variation, which added to the differences
of the meridians, shows the angle through which the westerly meridian must revolve
before it comes up with the Moon ; hence, and knowing the rate of her increase in
Right Ascension, the difference of Longitude may be easily obtained.
TJie Right Ascension of the Moon's bright limb and Declination of her centre*
at the instant of their respective transits at Greenwich, are given for the lower
as well as the upper Culmination, l. denoting the Lower Culmination, and u. the
Upper Culmination ; the Roman numerals indicate the brigfit limb of the Moon.
The Moon's age at the upper transit is inserted in the column containing the
magnitudes of the Stars.
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EXPLANATION. 505
The numbers in the column " Var. of <[ 's R. A. in one hour of Long." represent
the Variation in Right Ascension of the Moon's Limb during the interval of her
transit over two meridians, equidistant from that of Greenwich, and one hour
distant from each other. They have been deduced from the Right Ascensions
of the bright limb, and therefore include the effect produced by the change of the
semidiameter. They serve to determine the Longitude where the difference of
meridians is not great ; but where this difference is considerable that variation
in Right Ascension should be used which corresponds to the middle of the interval
between the observations. They also serve to determine (approximately) the
Right Ascension of the bright limb at its transit over any other meridian.
Thus : Multiply the difference of longitude between Greenwich and the given
meridian, by the variation ; and, according as the given meridian is East or West
of Greenwich, subtract or add the product to the Right Ascension at Green-
wich ; the result will be the Right Ascension of the bright limb at transit over
the proposed meridian. Example: On Feb. 10, 1882, the Right Ascension of
the Moon's second limb is i$ h i4 m 2i*'46, at its upper transit at Greenwich, and
the variation in 1 hour of longitude is 13 8* "98: Required the Right Ascension
of the limb at its upper transit at Paris. Paris is 9 m 20** 6, or o h *i56, East of
Greenwich; therefore, multiplying 138* '98 by 0*156, and subtracting the pro-
duct, 21**68, we have I5 h 13™ 59**78, for the Right Ascension at Paris.
In a similar manner the Declination may be approximately determined at
transit over any meridian not far distant from Greenwich, bearing in mind that
South Declinations and East Longitudes are to be considered as negative. Thus,
in the above Example : The Moon's Declination at her upper transit at Green-
wich is S. 1 7 13' 7" '5 and the " Var. of G 's Dec. in 1 hour of Long." is
— 3^3"' 3> which, multiplied by — o* 156, gives + 56"' 7, or — 17 12' 10" '8; for
the Declination at the upper transit at Paris.
An asterisk to a Star's name denotes that the Star is favourably situated for the
observation of its Declination with that of the Moon, with a view to the accurate
determination of the Moon's Parallax.
The numbers in the column entitled "Sid. Time of Sem. pass. Men," express
the Sidereal intervals which the Moon's Semidiameter, at the time of transit at
Greenwich, takes in passing the meridian, and therefore serve to determine the
Transit of the centre from an observed Transit of either limb, the " Semidiameter"
a similar purpose for the Declination, and the "Hor. Par.," or Horizontal
Parallax, for reducing an observation to the centre of the Earth.
Eclipses. (Pages 397 to 401.)
In these pages are given the particulars necessary for indicating the times,
places, &c. on the Earth where the Eclipses of the Sun and Moon will be visible,
and the Elements which have been used in the calculations.
Transit of Venus across the Sun's Disc. (Page 402.)
This page contains the times of external and internal contact of Venus as
referred to the centre of the Earth, with equations for reduction to the surface.
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506 EXPLANATION.
Elements of Occultations. (Pages 403 to 436.)
These are:— 1. The Greenwich Mean Time at which the Moon would, if
viewed from the centre of the Earth, appear to have the same Bight Ascension as
the Star.
2. The Apparent places, at Greenwich Mean Midnight, of Stars not less than
magnitude 6§, the occultations of which will be visible at some part of the Earth.
3. The difference of Declination and Position of the Moon, as it would appear
with respect to the Star at the instant of conjunction in Bight Ascension.
4. The Limits of Latitude beyond which the Star cannot be occulted by the
Moon. They also indicate whether at a given conjunction of a Star with the
Moon, the positions are likely to produce an occultation in a given Latitude.
These Elements being referred to the Moon and Star, as seen from the centre of
the Earth, are independent of geographical position, and serve equally for all
places. It is only necessary to apply the difference of longitude from Greenwich
to the Greenwich Mean Time of conjunction to find the time of conjunction at any
other meridian 5 and it is this time to which the positions of the Moon and Star
here given will equally correspond.
Suppose an observer situate at a star, and having the Moon between him and the
Earth, and that he could see the Moon projected on the Earth's disc ; he would
observe it moving across the disc from West to East, covering a zone whose breadth
would be equal to the apparent diameter of the Moon. Now it is *nly within the
limits of this zone that the Occultation of a Star by the Moon can take place. To
all the places through which the boundary lines pass, the Star will appear just to
touch the Moon's limb ; and that projected parallel of latitude, to which one of the
boundary lines is a tangent, is one of the limiting parallels, while the intersection
of the other boundary line with the circumference of the Earth's disc determines
the other limiting parallel.
Occultations. (Pages 437 to 439.)
These pages contain a list of those Stars the Occultations of which by the
Moon are visible at Greenwich, with the Sidereal and Mean Times of the dis-
appearance and reappearance, and the points on the circumference of the Moon's
image, where the Star, viewed with a telescope that inverts, will disappear and re-
appear. By "Angle from N. Point " is to be understood the arc included between
the Star, when in contact, and the point of intersection of the limb with a circle
passing through the North Pole and the centre of the Moon's image ; and by "Angle
from Vertex," the arc between the Star at contact, and the point where a circle,
passing through the zenith and the Moon's centre, intersects the limb. The
angles from vertex are useful in observing Occultations with a telescope not
mounted equatorially ; and to enable the observer to direct his attention to the
point of the Moon's limb where the Star will reappear. In some instances Occul-
tations have been inserted, which taking place in, or near to, the horizon of
Greenwich, may be visible at places not far distant from Greenwich.
Jupiter's Satellites, Eclipses, Occultations, $c. (Pages 440 to 461.)
These pages contain the Greenwich Mean Times of the Eclipses, Occultations,
Transits, and Transits of Shadows of the Satellites of Jupiter. " Ec D." denotes
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EXPLANATION. 507
the disappearance of the Satellite into the shadow. of Jupiter; and "Ec. R." its
reappearance out of the shadow. They generally happen when the Satellite is
apparently at some distance from Jupiter, except near the opposition of Jupiter
to the Sun, when the eclipse takes place near to the planet The disappearances
and reappearances happen on the Western side of the planet before opposition,
but afterwards on the Eastern side : with an inverting telescope, the appearances
will be the contrary. Before the opposition, the disappearances only of the
first Satellite are visible: and after the opposition, the reappearances only.
The disappearance and reappearance of the second Satellite can seldom be
observed at the same Eclipse : but both phenomena are generally visible with the
third and fourth Satellites. " Oc. D." denotes the disappearance of the Satellite
behind the disc of Jupiter, and " Oc. R." its reappearance ; %tt Tr. I." the ingress
or beginning of a transit of a Satellite across the disc of Jupiter ; and " Tr. E." its
egress or termination ; " Sh. I." the ingress of a transit of the shadow of a
Satellite across the disc of Jupiter; and " Sh. E." its egress. The times of Occul-
tation and Transit are only approximate.
The Eclipses, Occultations, &c. visible at Greenwich are marked with an
asterisk when Jupiter is more than 8° above, and the Sun more than 8° below
the horizon of Greenwich, and with a dagger when Jupiter is nearer the horizon,
as under favourable circumstances they may be observed.
To find the time of the disappearance or reappearance for any other place, it
is only necessary to add the difference of longitude (in time) if it be East of Green-
wich, or to subtract it if West: Jupiter, however, may be below the horizon at this
time, or the intensity of sun-light, or the brightness of twilight, may render the
Satellites invisible: it is therefore necessary to ascertain the position of the Sun
and Jupiter, with respect to the horizon ; this may be accomplished by means of a
celestial globe, or by finding their times of rising and setting.
Phases of the Eclipses, These diagrams exhibit the position of each Satellite
with respect to the disc of the Planet at the moment of disappearance or re-
appearance, as it will appear in an inverting telescope ; they have been laid down
from calculations made for the eclipse nearest to the middle of each month, and
serve very well for the whole of the month except near opposition, the change
in the position of Jupiter and his Shadow in the interval being too small to be
appreciable.
The Tables of Configurations represent, at a given hour after Mean Noon of
each day of the Month, the relative positions of the images of Jupiter and his
Satellites, as they would appear (disregarding their latitudes) in an inverting
telescope. Jupiter is indicated by the white circles (O) in the centre of the page ;
the Satellites by points. The numerals i, 2, 3, and 4, annexed to the points,
serve to distinguish the Satellites ; and their positions indicate the directions of
the Satellites' motions, which are towards the numerals. When a Satellite is at
its greatest elongation, the point is placed above or below the centre of the
numeral. A white circle (O) denotes that the Satellite is on the disc of Jupiter,
and a black circle (#) that it is either behind the disc, or in thte shadow, of
Jupiter. When two Satellites are in or near conjunction, they are placed one
above the other, merely to distinguish them in their relation of upper and lower,
without regard to their actual latitudes.
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5 o8 EXPLANATION.
The Satellites are in the superior parts of their orbits, or have Jupiter between
them and the Earth, when they are moving from "West to East ; and in the
inferior parts of their orbits, or between the Earth and Jupiter, when moving from
East to West : in the former case Eclipses and Occultations occur, and in the
latter Transits of the Satellites and their Shadows.
If an inverting telescope be directed towards Jupiter on August 7, 1882, at
14b join m can time, the Satellites will appear to an observer at Greenwich in the
positions as laid down in the table. The ist and 3rd Satellites, which are really
to the left of the planet, will appear to the right of it ; and the 2nd and 4th, which
are really to the right, will appear to be to the left.
West and East, at the head of the page, are inserted to show the positions of the
Satellites with respect to Jupiter, as they would appear in a telescope that does not
invert. Jupiter being always to the south of the zenith of Greenwich, the Satellites
which are here laid down on the left of Jupiter would appear to the West, and those
on the right-hand to the East of the planet.
As the Configurations are given for mean astronomical time, which agrees
with civil time only from o h to I2 h , or from noon to midnight, when the
time exceeds I2 h the excess will indicate the civil time of the following day.
Thus in July, 1882, the Configurations are given for 15 11 mean time, but the
15 th hour from noon is the same as the 3rd hour past the following midnight. The
Configurations for July 26, I5 h , therefore relate to 3'' A.M. on July the 27th.
Phenomena. (Pages 462 and 463.)
In these pages are given the approximate times of the conjunctions in Right
Ascension of the Planets with the Moon and with each other, and the con-
junctions in Right Ascension of the Planets with certain Stars ; also the times
when the Planets are in those parts of their orbits most favourable for observation,
with a view to the more accurate determination of their elements ; and other
notices, chiefly of use to the astronomer.
Opposition of Mars. (Pages 464 to 466.)
These pages contain an Ephemeris of Stars to be observed with Mars near
the opposition in 1882, with a view to the determination of the parallax of
that planet, from corresponding observations of the differences of declination
between the planet and stars made at places differing considerably in latitude,
such as the observatories in the northern and southern hemispheres.
The Stars are selected in such manner that there may be always sufficient
intervals of time between their transits and those of the planet, to enable the
observer to read off the divisions of the circle or micrometer ; except in some
cases, when two objects, not distant above five or six minutes in declination, will
pass through the field, the telescope remaining fixed, and when their difference of
declination may be obtained by means of a micrometer.
The positions of Mars are the apparent geocentric places of the planet's centre,
which, with the seraidiameter and horizontal parallax, have been reprinted from
page 278.
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EXPLANATION. 509
It is desirable that, when both limbs of Mars cannot be conveniently observed
on the same day, the northern limb should be observed on the odd days, and the
southern limb on the even days of the month. This is denoted by the letters N.
and S. inserted in the column of magnitudes.
Those astronomers who are possessed of good equatorial instruments, may take
repeated measures of the differences of declination between* the selected Stars
and the Planet on the same night, noting the times at which the observations are
made.
Saturn'* Ring, #c. (Page 467.)
In this page are given the quantities which enable us to determine the position of
the Ring of Saturn at intervals of 20 days throughout the year, and whether it be
visible or not. The value of p shows the position of the minor axis of the Ring with
respect to a circle of declination, those of a', 6', a", b" 9 the Ring's apparent magnitude,
and a comparison of those of / and /', its visibility or otherwise. For the plane of the
Ring to be visible, it is necessary that the Sun and the Earth should be elevated
on the same side of it, which is the case throughout 1882. The circumstances
which determine the invisibility of the Ring are, 1st, when its plane passes through
the centre of the Sun, or /' = o ; 2nd, when it passes through the centre of the
Earth, or / = o, and at this time V and 6", also = o ; 3rd, when the Sun and
Earth are on different sides of the plane of the Ring, for the Earth in this case
will have the unilluminated side of the Ring turned towards it
In this page is also the illuminated portion of the discs of Venus and Mars.
Tides. (Pages 468 to 471.)
The Mean Time of High Water at London Bridge is here given for every day of
the year, on the assumption that the time of high water on full and change days, or
the Establishment of the Port, is i h 58™. The first high tide which happens
after Mean Noon of any day is inserted in the 1st column, and the second in
the 2nd column. Where a line (— ) is inserted, it indicates that there is only one
high tide on that astronomical day. Thus on Feb. 15th there is only one high
tide ; it occurs at n h 56", but the succeeding high tide does not take place until
29 m after mean noon of Feb. 16.
The times of high water at full and change of the Moon, as given at pages 470
and 471, arc reckoned from Apparent Noon: they represent the Establishments
of the Ports, that is, the actual times of High Water when the Moon passes the
meridian at the same time as t/ie Sun; or the intervals between the times of
Transit of the Moon and the times of High Water on full and change days.
They serve to determine approximately the time of high water on any other day
at those places in the usual manner.
This Table is occasionally revised by the Admiralty Hydrographic Office.
Moon's Libration, fyc. (Page 472.)
Page 472 contains the data for facilitating the computation of the Liberation
in Longitude and Latitude at any time required. See nautical almanacs
1 867-1 869, preface, page X.
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510 EXPLANATION.
Tablet. (Pages 473 to 482.)
In pages 473 to 475 are given Tables for determining the Latitude by Obser-
vations of the Pole Star out of the Meridian. The method of using them is as
follows : —
From the observed altitude, when corrected for the error of the instrument,
refraction, and dip of the horizon, subtract 1'.
Reduce the Mean Time of Observation at the place to the corresponding Sidereal
Time, by the Table given at page 478.
With the Sidereal Time found, take out the first correction, with its proper sign.
If the sign be +, the correction must be added to the reduced altitude ; but if
it be — , it must be subtracted; the result will give an Approximate Latitude.
With the Altitude and Sidereal Time of observation, take out the second cor-
rection; and with the day of the month and the same Sidereal time, take out the
third correction. These two corrections added to the Approximate Latitude,
will give the Latitude of the place.
Example. On March 6th, 1882, in Longitude 37 W. at 7 h 43 m 35* P.M. Mean
civil Time, suppose the altitude of the Pole Star, when corrected for the error of
the instrument, refraction, and dip of the horizon, to be 46 ifzV'x Required
the Latitude.
h m 1
Mean Time ------74335
Diff. Long. (37 ) in time - - 2 28 o
Greenwich Mean Time - - - 10 11 35
h m •
Sidereal Time at Greenwich Mean Noon - 22 56 28
Mean Time at Place -.------ 7 43 35
Acceleration (Tab. page 478) for io b I2 m • 141
Sidereal Time of Observation --.-- 641 44
Corrected Altitude - - - 46 17 28
Subtract -------- 10
Reduced Altitude - - - 46 16 28
With Argument 6 h 41™ 44% First Correction— o 11 47
Approximate Latitude --.- 46 441
Arguments, 46; 17^ J Second Correction +0 55
Arguments, March 6, 1882^ J TUfd q^^ + f fg
Latitude of the place - - - N. 46 6 55
Pages 476 and 477 contain a Table of three quantities used in computing the
Moon's Libration. See nautical alhanacs 1 867-1 869, preface, page x.
The Tables of Time Equivalents, given at pages 478 to 481, are for converting
Mean Time into Sidereal Time, and Sidereal into Mean Time. They will serve
also for Tables of Acceleration and Retardation, by taking the difference between
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EXPLANATION. 511
each argument and its equivalent Thus, in the Table at pages 478 and 479,
the excess of the sidereal time equivalents above the arguments of mean time
shows the acceleration of sidereal on mean solar intervals ; and in the Table at
pages 480 and 481, the defect of the mean time equivalents, as compared with
the arguments of sidereal time, indicates the retardation of mean on sidereal
intervals.
In page 482 is given a Table of the Correction required on account of Second
Differences in finding the Greenwich Time corresponding to a reduced Lunar
Distance — the use of this Table has been explained, by the Examples given at
pages 498 and 499.
Days elapsed of the Julian Period at Mean Noon. (Page 483.)
The principal use of this Table is in determining the interval in days between
two epochs, which is frequently required in astronomical calculations.
Required the day of the Julian period for 1880, February 1, and March 1 •
1881, Jan. 10 ; and 1882, August 9.
1880, Feb. 1 and Mar. 1. 1881, Jan. 10. 1882, Aug. 9.
2407716 2407716 2407716
31 (p. 484) 366 366
2407747 Feb. i.
y
220
2408091
1
2408667
2407776 Mar. i.
Day of the Year. (Pages 484 and 485.)
The numbers in these columns indicate the complete days at mean noon which
have elapsed since mean noon of January 1. Mean noon of January 1 is therefore
reckoned o, and 1 is found opposite to that of January 2, because at that instant
one entire day has elapsed*
Fraction of the Year. (Pages 484 and 485.)
These fractions are the quotients found by dividing the numbers in the preceding
column by 365 ■ 242. The day and fraction of the year are useful in many astro-
nomical calculations.
The concluding pages, 486 to 488, contain a revised list of the Latitudes and
Longitudes of the principal Public and Private Observatories,
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APPENDIX
TO
THE NAUTICAL ALMANAC,
IOB THE TEAS
1882;
OONTAINIXO
ELEMENTS AND EPREMERIDES
OF
CERES, PALLAS, JUNO, and VESTA.
33 (APPENDIX TO NADTIOAL ALMANAC, l88«.) * nAJlo
** v Digitized by VJiOOQlC
ELEMENTS.
n
log. a
© CERES.
1882, Sept. 20*0
M. T. at Green*.
o / *
348 33 21 '7
H9 4 375
80 49 56*9
10 37 19-3
4 34 3*9
771*40807
0-4418149
1882, Sept 5.
GODWABD.
Monthly Notion of
tkeRoy.Ast.Soc,
VoL38»P."9-
PALLAS.
1882, Aug. 15*0
M. T. at Green h .
o 1 ft
31s 35 18-9
122 8 31*9
172 43 50-1
34 43 *3"9
13 ss 10
ff
770-I2804
0-4422958
1882, Aug. 7.
FABLEY.
Supplement to Nau-
tical Almanac,
i860.
© JUNO.
1882, July 10*0
M.T. at Green*.
o 1
321 36
55 28
170 39
J 3 1
H 47
;8-<
4
o
23*0
16-8
7-0
813*29204
0-4265067
1882, July 18.
Supplement toNau-
fical Al\
18*9.
Almanac,
© VESTA.
1881, Oct 31-0
M. T. at Green 11 .
32 7 22*2
251 11 53*6
103 30 58*3
7 7 59H
5 1 257
976-77867
0-3734736
188 1, Oct 30.
FARLEY.
Supplement to Nau-
tical Almanac,
i860.
With perturbations by Venus, the Earth, Kara, Jupiter, and Saturn.
The Longitudes are reckoned from the Mean Equinoxes of the respective Epochs.
o
© CERES, 1882.
MEAN TIME.
Month
and
Day.
Right
Aiceniion.
Declination.
Log. of
Dist from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Rad.Vect
Noon.
Nook.
Noon,
Noon.
Noon.
Noon.
Jan.
1
11
21
3*
h m
19 42-9
20 0*2
20 17*4
20 34'4
1
S.26 12
25 39
25 O
24 16
0*5909
0-5938
0*5950
o'5945
h m
30-0
„ H-4
*3 49*7
/
297 O
298 52
300 43
302 35
t
S. 6 20
6 36
6 52
7 7
0*4696
0*4702
0*4708
0*4713
Feb.
Mar.
10
20
2
12
20 5I'I
21 7-5
21 23-5
21 39*1
23 28
22 36
21 45
20 48
0*5923
0*5885
0*5830
0'5759
23 27-0
23 4-0
22 40*6
22 16*7
304 26
300 17
308 9
310
7 22
7 37
0*4718
0*4723
0*4727
0*4731
Apr.
22
1
11
21
21 54- I
22 8-6
22 22'5
22 35'7
IO 52
18 57
18 I
17 16
0*5672
0-5568
0-5448
0*5312
21 52*3
21 27-4
21- 1*9
20 35-7
311 51
313 42
3'5 34
317 25
8 18
8 30
8 42
8 54
0*4735
04738
04741
0*4744
May
1
11
21
3 1
22 48-2
22 599
23 10-5
23 20-1
16 32
*5 54
15 23
15 2
0-5161
0*4994
0*4813
0*4619
20 8-7
19 40-9
19 12*1
18 42*2
319 16
321 7
322 59
324 50
9 5
9 '5
9 *5
9 34
0*4746
0-4748
0*4749
0*4750
June
July
10
20
30
10
23 28-4
*3 35*3
23 40-6
23 439
14 51
14 52
'5 7
*5 35
0-4414
0-4200
0*3982
0*3765
18 ii-i
17 38-5
17 A-2
l6 28-I
326 41
3*8 33
330 *4
332 15
9 43
9 S .
9 58
10 5
0*4751
0-4751
0*4751
0*4750
Aug.
20
30
9
19
23 45-2
23 44-2
23 40-9
23 356
16 17
17 12
18 17
19 20
0*3556
0*3366
0*3205
0-3085
15 49*9
15 f'l
14 26-8
13 42-0
334 7
335 58
337 5o
339 4*
10 11
10 16
10 21
10 25
0*4749
0*4748
0*4747
0*4745
Sept.
1
18
28
23 28*5
23 20' 3
23 ii'9
23 42
20 32
21 31
22 14
22 38
0-3017
0*3005
0*3055
0*3156
12 55-6
12 8-1
11 20*4
10 33:5
34' 34
343 *7
345 19
347 "
10 29
10 32
10 34
10 36
0*4742
04730
0*4736
0*4732
Oct.
Nov.
8
18
28
7
22 57*9
22 53-7
22 51-7
22 52-2
22 42
22 26
21 52
21 3
0-3305
0*3489
0-3695
0-3913
9481
4-6
8 23-4
7 44*6
349 |
350 58
352 51
354 45 ,
10 37
10 37
10 37
10 36
0*4728
0*4724
0*4719
0*4714
Dec.
17
27
7
17
22 54*8
22 59-4
23 5-7
23 13-6
20 2
18 51
17 32
16 7
0*4135
0*4353
0-4563
0-4761
7 8-o
6 33.3
6 0-3
5 288
356 39
358 33
28
2 22
10 34
10 32
10 29
10 25
0-4709
0*4703
0*4697
0-4690
27
37
23 22'7
23 32*9
14 36
S.13 1
0-4945
0*5114
4 586
4 *9'4
6 12
10 20
S.10 15
0*4684
0-4676
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CERES, 1882.
AT TRANSIT AT GREENWICH.
Month
and
Day.
Apparent
Right
Ascension.
Aug. 1
3
5
7
9
11
*3
15
17
19
21
*3
*5
*7
29
3i
Sept. 2
<? {
8
10
12
i 14
16
18
20
22
*4
26
28
3©
2
4
6
8
10
12
16
18
20
22
*4
26
Oct.
h m 1
23 43 31-81
23 42 56-70
23 42 16-21
*3 4i 3 0, 3*
39'3«
43-11
41-94
35 "99
*5*45
10-57
51-61
28-86
2*62
33-22
I'OO
26*30
49-46
10-88
30-97
50-19
8-96
*7*75
47-00
7*17
28-7
52-04
17*59
45*73
16*81
51-16
29*10
10*92
56-90
47*3*
42-40
4** 39
47*4*5
57*77
13-48
34-66
22 53 1-40
« 5* 33*74
22 52 11 '69
22 51 55-25
23 40
*3 39
23 38
*3 37
23 36
*3 35
n 33
23 32
23 31
23 29
23 28
23 26
23 24
23 23
23 21
23 19
23 18
23 16
23 14
23 13
23 11
23 9
*3
*3
*3
»3
*3
*3
22 59
22 58
22 57
22 56
22 55
22 54
22 54
22 53
App. R.A.
on
intermediate
Day.
Var.of
R.A.
in
1 Hour
of
Long.
43
4*
4i
41
40
39
3«
37
35
34
33
3^
30
28
*7
»5
*4
22
20
18
17
*5
12
10
9
7
6
4
3
1
o
59
58
57
56
55
54
53
53
5*
5*
5*
5i
1 1
'4*93
37-12
53-96
5-50
11-85
13-14
955
1-28
48*54
31-58
10*69
46-16
18*29
47'44
13*94
38*12
0-36
21*06
40*66
59* 60
18-33
37-29
5*5-95
»7*74
40*12
4*5*
31-32
o-88
33*5*5
9-66
49*5^
33*37
21-54
14-26
u-77
14*28
21-95
34*94
53*38
17*33
46-87
22*02
2-77
49-11
o*68
0-79
0*90
01
•12
'22
•3*
*4*
•5*
•60
•69
•76
•83
•89
'95
•00
•04
•07
•09
•11
'ii
•11
•09
•07
•03
*99
94
•88
•82
*75
•67
*59
•50
•4°
•30
'20
■09
0*98
0*87
0-75
0-64
0*52
0*40
0*28
Apparent
Declination.
or*
5.17 28 41*9
17 41 198
17 54 i6'2
18 7 28-5
8.18 20 54*3
18 34 30-8
18 48 15*0
19 2 3-6
8.19 15 53*4
19 29 40-9
19 43 *3*i
19 56 56-4
5.20 10 17*5
20 23 23
20 36 9
20 48
6.21 o
21 12
21 23
21 33 31
5.21 43 20*9
21 52 30*7
22 o 59*0
22 8 43-6
5.22 15 43*0
22 21 55*8
22 27 20*7
22 31 57-3
S.22 35 45 *»
22 38 44*0
22 40 53-8
22 42 14-4
S.22 42 46*1
22 42 29-3
22 41 24-5
22 39 32*2
S.22 36 53-5
22 33 29-4
22 29 21*0
22 24 29*4
S.22 18 55*9
22 12 42*1
22 5 49-3
S.2I 58 l8*8
App. Dee.
on
intermediate
Day.
or*
3.17 34 58-4
17 47 45*8
18
50-5
18
14 9*9
S.18
27 41-4
18
41 22-2
18
55 9*0
*9
858-5
S.19
22 47-6
19
36 32-9
19 50 11*1
20
3 38*7
S.20
16 52*4
20
29 48*9
20
42 24-9
20
54 37*4
8.2 1
6 23-4
21
17 39*6
21
28 23*1
21
38 311
8.2 1
48 0-9
21
56 50-2
22
4 56*8
22
12 19*1
8.22
18 55*3
22
24 44-2
22
*9 45*i
22
33 57*4
8.22
37 a°*8
22
39 55*o
22
41 40*2
22
4* 3*5*3
8.22
42 43-8
22
42 2-9
22
40 34'a
22
38 18-6
S.22
35 17*'
22
31 30-7
22
27 0-5
22
21 47-8
8.22
15 54-0
22
9 20-5
22
2 8-7
S.2I
54 20*0
Var.of
Dec
in
1 Hour
of
Long.
-15
16
16
16
-16
1
1
1
-1
1
1
16
-16
16
1
1
•1
1
I
12
-1
1
Hot.
Par.
4'i
4*1
4**
4*»
4**
4'3
4*3
4*3
4*3
4'4
4*4
4*4
4'4
4*4
4 # 4
4*4
4*4
4*4
4"4
4*4
4*4
4*4
4*4
4-4
4'4
4-4
4'3
4'3
4*3
4'3
4'3
4**
4-*
4*»
4'x
4"*
4'x
4 - o
4-o
4'o
3 - 9
3*9
3'9
38
Digitized by
o
o CERES, 1882.
AT TRANSIT AT GREENWICH.
Month
and
Day.
Apparent
Right
Ascension.
App. R.A.
on
intermediate
Day.
Var. of
R.A.
in
1 Hoar
of
Long.
Apparent
Declination.
App. Dec.
on
intermediate
Day.
Var. of
Dec.
in
1 Hour
of
Long.
Ilor.
Par.
Oct. 18
30
Nov. 1
3
5
7
9
11
'3
IS
17
19
11
*3
*5
*7
29
Dec. 1
3
5
h m s
22 51 44*37
22 51 39-05
22 51 39-25
*» 5* 44*93
22 51 56*04
22 52 12*53
22 52 34-31
22 53 1-31
22 53
22 54
22 54
22 55
22 56
22 57
22 58
22 59
23 o
23 1
23 3
*3 4
33*44
10*60
52-65
39*47
30-94
26*92
27*28
31*88
40*62
53*39
10-07
3<>*55
h m 1
2 51 41*02
2 51 38-46
2 51 41-41
2 51 49-81
12 52 3*62
52 22*76
J2 52 47-17
22 53 16*74
2 53 51*40
2 54 31*02
a 55 '5*47
2 56 4*63
2 56 58*37
12 57 56*56
22 58 59* 06
23 o 5*74
23 1 16*51
23 2 31-25
23 3 49*84
23 5 12-17
*3 5 54*7i
s
- 0-17
— 0*05
+ 0*06
0*18
+ 0*29
0*40
0*51
0*62
+ 0-72
0*83
0-93
1*02
+ I-I2
1*21
1*30
i*39
+ i*47
1*56
1*64
1*72
+ i*79
o /
S.21 50
21 41
21 32
21 22
S.21 12
21 1
20 50
20 38
S.20 26
20 13
20 o
19 46
n
12*2
30*7
15*4
*7*5
8*4
18-9
0-4
139
0*7
21-6
18-0
50-9
S.19 33 1-4
19 18 50*3
19 4 18-6
18 49 *7*3
S.18 34 16-8
18 18 48*0
18 3 1-4
17 46 57*8
S.17 3° 37*8
S.*i 45 55*7
21 36 57*2
21 27 25*4
21 17 21*8
8.21 6 47*4
20 55 43*2
20 44 io*6
20 32 io*6
S.20 19 44*3
20 6 52*8
19 53 37*3
19 39 5«*9
S.19 25 58*5
19 n 37*0
18 56 55*4
18 41 54*4
S.18 26 34*7
18 10 56*8
17 55 i*7
8.17 38 49*8
*
1$
+ 10-5
3'8
11*2
V
n*9
3*7
12-6
3*7
+ 13*2
3'6
13*8
3'6
14-4
3-6
15*0
3*5
+ 15*5
3*5
i6*i
3*5
16-6
3*4
17-1
3*4
+ 17*5
3*4
17-9
3*3
18*4
3*3
18-8
3*3
+ 19*2
3**
19-5
3*2
19*9
3*
20'2
3*i
+ 20*6
3*i
Digitized by
o
6
© PALLAS, 1882.
MEAN TIME. |
Month
and
Day.
Sight
Ascension.
Declination.
Log. of
Dist. from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of
Bad.Vect
Aboii.
Noon.
Noon.
Noon.
Noon.
Noon.
Jan.
i
ii
21
3 1
h m
18 45'4
18 593
19 13*0
19 20*4
/
N. 2 45
2 54
3 *3
3 4i
O-6246
0*6254
O-6248
0*6225
h m
U i'D
23 332
*3 7'5
22 41-5
1
283 10
284 48
286 26
288 2
t
N.33 O
32 42
32 24
32 4
0-5257
0*5269
O-5280
0*5291
Feb.
Mar.
10
20
2
12
19 394
19 52-0
20 3-9
20 15*1
4 17
5 *
I S l
6 48
o*6i88
0*6136
0-6068
0-5984
22 15 -1
21 48-2
21 20*7
20 52-5
289 37
291 II
292 44
294 15
3i 43
31 21
30 58
30 34
0*5301
0*5310
0-5318
0-5326
Apr.
22
I
II
21
20 25 a 6
20 35-2
20 43-8
20 51-2
7 49
8 54
10 2
11 11
0-5886
0-5774
0-5648
0-5508
20 23-5
'9 53*7
IO 22'Q
l8 50*8
295 46
297 l6
298 44
300 12
30 9
*9 43.
29 17
28 49
o-5333
0-5338
o"5344
0-5348
May
I
II
21
31
20 57-4
21 2*2
21 I'i
21 6-8
12 20
13 27
14 29
15 24
0*5357
0*5196
0*5027
0*4853
r8 17-5
17 42-9
17 6*6
16 28-6
301 38
303 4
304 *9
305 53
28 20
27 51
27 20
26 49
05352
5355
0-5357
05358
June
July
10
20
30
10
21 6-5
21 4-3
21 0*3
20 54*6
16 9
16 41
16 55
16 48
0*4680
0-4512
o'4357
0*4222
15 48*9
15 7*2
14 25*8
13 38*8
307 16
308 39
310
311 21
26 17
*5 45
25 11
H 37
0-5359
0-5359
o # 5358
0-5356
Aug.
20
30
9
*9
20 47-6
20 39-9
20 32*1
20 24*9
16 17
15 22
H 3
12 24
0-4115
0*4046
0-4018
0-4035
12 525
12 55
11 18*4
10 31*9
312 42
314 1
315 20
316 39
24 2
23 26
22 50
22 12
o*5354
0-5351
0*5347
0-5342
Sept.
18
28
20 18-8
20 14*4
20 ii'9
20 ii*4
10 31
8 30
6 29
4 3*
0-4097
0*4198
0*4332
0*4491
9 46*6
3-0
8 21*2
7 4i-5
3i7 57
319 14
320 32
321 48
.21 35
20 56
20 16
19 36
o-5337
0-5330
05323
0-5316
Oct
Nov.
8
18
28
7
20 12*9
20 16-4
20 21-5
20 28-3
2 43
N. 1 6
S. 18
1 28
0-4665
0*4848
0-5032
0*5212
7 3'8
6 27*9
5 53-8
5 *i'3
3*3 5
324 21
325 37
326 52
18 56
18 14
17 32
16 50
0-5307
0-5298
0-5288
0-5276
Dec
17
27
7
17
20 36*4
20 45*6
20 55-8
21 6-8
2 25
3 9
3 4o
3 59
0*5384
o-5545
0*5692
0*5823
4 5o-o
.4 19*9
3 50-7
3 22*3
328 7
329 23
330 38
33i 53
16 6
15 22
14 37
13 52
0-5265
05252
05239
05225
27
37
21 18-4
21 30*6
4 7
S. 4 5
0*5938
0*6036
2 54*6
2 27*4
333 8
334 *3
'3 5
N.12 18
0*5210
05195
Digitized by
Google
© PALLAS, 1882.
AT TRANSIT AT GREENWICH-
Month
and
Day.
June 22
*4
26
28
30
July 2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
Aug. 1
3
5
cf 7
9
11
'3
15
17
19
21
»3
*5
27
29
3i
Sept. 2
4
6
8
10
12
14
16
Apparent
Bight
Ascension.
h m ■
21 3 »4'3°
21 2 38-83
21 1 49* l 7
21 o 55-39
20 59 57-64
20 58 56*01
20 57 50*62
20 56 41*64
20 55 29*21
20 54 13*52
20 52 54*76
20 51 33*19
20 50 9*05
20 48 42*64
20 47 14*22
20 45 44-09
20 44 12*52
20 42 39*84
20 41 6-35
20 39.3*'3*
20 37 58*21
20 36 24*16
20 34 50-54
20 33 17-68
20 31 45-89
20 30 15-52
20 28 46-88
20 27 20*30
20 25 56-08
20 24 34*50
20 23 15*83
20 22 o*33
20 20 48*21
20 19 39*68
20 18 34-92
20 17 34*12
20 16 37*42
ao 15 44*99
20 14 56-97
20 14 13-48
20 13 34*63
20 13 0*52
20 12 31*20
20 12 6*76
App. "RJL
on
intermediate
Day.
h
m s
21
3
2*09
21
t
1452
21
1
22*79
21
27-01
20
59 *7'3°
20
5«
23*78
20
57
1*5*57
20
56
5'«5
20
54 51*76
20
53
34*5«>
20
5*
14-31
20
50 51*42
20
49
26*12
20
47
58*66
20
46
*9'35
20
44
58-46
20
43
26*30
20
4i
53*17
20
40 19*41
20
3«
45*30
20
37
11-15
20
35
37'*8
20
34
3*99
20
32 31-63
20
3i
0*51
20
29 30-97
20
28
3*3*
20
26
37*88
20
*5
14*94
20
23 54*78
20
22
37*67
20
21.
23*83
20
20
13*48
20
19
6-82
20
18
4-02
20
17
5'*5
20
16
io'66
20
15
20*42
20
14 34-65
20
13 53'47
20
*3
16*98
20
12
45'*5
20
12
18*37
20
11
56-38
Var.of
R.A.
in
1 Hour
of
Long.
0*90
0*99
•08
•16
•«4
•3*
•40
•47
54
•61
-6 7
•73
•78
-82
•86
•89
•92
'94
•95
•96
•96
•96
"94
•92
•90
•87
•83
•78
'73
•67
•61
•54
•47
'39
•31
••22
•14
•05
0*95
o*86
0-76
0-66
0-56
0-46
N.
N.
N.
N.
Apparent
Declination.
/ n
46 21*7
49 4«"«
52 14-8
54 i*i
54 58-5
55 5*5
54 20*6
52 42*6
50 9*8
6 46 41*2
6 42 15*3
36 51-5
30 29*0
23 7*2
14 46*0
5 *5'3
5 55 5'*
5 43 46-5
5 3i *9'9
5 18 16-7
5 4 7'7
4 49 3*9
4 33 6-9
4 16 18-4
3 58 40-2
3 40 14-5
21 3-9
1 io*9
40 38-4
19 29*4
57 47'o
ff.
' 35 34'5
12 55-0
49 5i-7
26 28-0
2 46*8
38 51*3
H 44'4
8 50 29*3
8 26 9-0
8 1 46*5
7 37 H'9
7 »3 6*9
6 48 55*3
o
N.16
16
16
16
N.16
16
16
16
N.16
16
16
16
N.16
16
16
16
App. Dec
on
intermediate
Day.
Var. of
Dec.
in
1 Hour
of
Long.
48 7-o
51 3*8
53 H'°
54 36 # o
55 8*4
54 49*6
53 38-3
5i 33'»
48 3*-6
44 35*5
39 40*7
33 47'6
26 55-5
19 4-1
10 13-1
o 22*6
N.15 49 33-1
15 37 45*4
15 25 0*3
15 11 19*1
N.14 56 4*"5
14 41 12*0
14 24 49-0
H 7 35'4
N.13 49 33* *
13 30 44-7
13 II 12*5
12 50 59*4
N.12 30 8*2
12 8 42*2
11 46 44*3
11 24 17*9
N.I I 1 26*1
10 38 12*2
10 14 39-4
9 50 50-7
N. 9 26 49*i
9 * 37-7
8 38 19*6
8 13 57'9
N. 7 49 35-4
7 *5 15'*
7 1 0*1
N. 6 36 52*7
4*6
3-7
*"7
x'7
0-7
0*4
1*5
2*6
3*8
49
6-i
7*4
8-6
9*8
ii-i
12*3
13*5
14*7
15-9
17*1
18*3
19*4
20' 5
21*5
22*5
*3*5
H*4
*5*3
26-1
26
«7
28
28
29
29-4
29-8
30-0
30*2
30*4
30-5
30*5
30*4
30-3
30-2
Hor.
Par.
© PALLAS, 1882.
AT TRANSIT AT GREENWICH.
Month
Day.
Apparent
Right
Ascension.
App. R.A.
on
intermediate
Day.
Var. of
R.A.
in
1 Hoar
of
Long.
Apparent
Declination.
App. Dec.
on
intermediate
Day.
Var. of
Dec.
in
x Hour
of
Long.
Hot.
Par.
Sept x 8
20
12
*4
26
28
30
Oct 2
4
6
. 8
xo
12
14
16
18
20
22
24
26
h m 8
20 ix 47*22
20 xx 32*60
20 11 22*90
20 xi z8'ix
20 IX l8'2I
20 xx 23*13
20 11 32*86
20 xx 47*36
20 12 6*58
20 12 30*48
20 12 59*01
20 13 32*12
20 14 9*72
20 14 51*76
so 15 38*14
20 l6 28*76
20 17 23*53
20 l8 22*35
20 19 25' XI
20 20 3X'72
h
m S
20
ix 39*30
20
II 27-14
20
ix 19*90
20
11 17*55
20
11 20*07
20
11 27*40
20
11 39-52
20
xx 56*38
20
12 17*95
20
12 44*17
20
'3 14'99
20
13 50*36
20
14 30*19
20
15 14*41
20
16 2*92
20
16 55-63
20
17 5*'44
20
18 53'H
20
'9 57*94
I
0*36
0-25
0*15
0*05
I*i8
1-27
i*3S
1*43
o /
6 24
6 1
5 37
5 14
4 50
4 28
4 5
3 43
582
13*6
50*1
49*0
ix-8
59*7
14*1
56*0
6-4
46*4
56-5
37*5
N.
o 45 50*1
o 28 34*6
o 11 51*3
o 4 19-7
t it
6 12 55*5
5 49 10*9
5 *5 4i • '
5 2 27-9
4 39 33'3
4 16 59*'
3 54 46'6
3 3* 57*3
3 " 3»'5
2 50 33-5
2 30 1-5
a 9 57*6
1 50 22-7
x 31 17*6
1 12 43*1
o 54 39*8
o 37 8-4
o 20 8-9
. o 3 41*8
-29-9
29*7
*9'4
29*0
-28*6
28-2
27*8
27-3
-26-8
26*2
*5'7
251
-24*5
23-9
23-2
22*6
-21*9
21*2
20*6
-19*9
33
3'*
3'*
3'*
3'*
3 # *
S' 1
3»
3'i
3 # o
3"°
yo
3-o
*-9
29
2*9
*'9
a-8
2*8
2-8
Digitized by
Google
© JUNO, 1882.
MEAN TIME.
Month
and
Day.
Right
Ascension.
Declination.
Log. of
Dist from
the Earth.
Meridian
Passage.
Helio-
centric
Longitude.
Helio-
centrio
Latitude.
Log. of
Rad. VecL
Noom.
Noon.
Noon.
Noon.
Noon.
Noon.
Jan.
1
11
21
3i
h m
17 48*1
18 2*5
18 16-7
18 30*6
1
S.I3 21
13 17
13 7
12 49
0*6186
0*6127
0*6050
0*5956
h m
23 15
22 36*5
22 ii a 3
21 45*9
/
262 44
264 16
265 48
267 22
-
N.13 I
13
12 58
12 56
0*5091
0*5074
0*5055
0*5036
Feb.
i Mar.
i
10
20
2
12
18 44*2
18 57-3
19 9-7
19 21*4
12 25
11 54
11 17
10 36
0*5843
0*5711
0*5563
0-5397
21 20'0
20 53*7
20 26*7
19 58-9
268 57
270 32
272 9
273 46
12 53
12 50
12 46
12 42
0*5015
0*4994
0*4972
0*4948
1
Apr.
I
1
22
1
11
21
19 32-3
19 42*2
19 50-9
19 58*2
9 So
8 10
7 18
0*5214
0-5013
0-4797
0-4567
19 30-4
ia 0*8
18 30*0
17 57*9
275 25
277 4
278 45
280 26
12 37
12 31
12 24
12 I*/
0*4924
0*4899
0*4872
0*4845
May
1
1
11
21
3i
20 4*o
20 8'i
20 IO*2
20 10*3
6 28
5 41
4 59
4 24
0-4325
0*4074
0*3819
0*3567
17 24*2
16 48*9
16 11*6
15 32*1
282 9
283 54
285 39
287 26
12 9
12
II 50
II 40
0*4817
0*4788
0*4758
0-4726
| June
1
1
July
10
20
30
10
20 8-1
20 3*8
19 57*5
19 49*6
4
3 49
3 53
4 H
C3J26
0*3108
0*2925
0*2788
14 50*5
14 6*8
13 21*1
12 33*8
289 15
291 5
292 56
294 50
II 29
II 17
II 4
10 50
0*4694
0*4661
0*4627
0*4591
1
! Aug.
i
20
30
9
*9
19 40*8
19 32*1
19 24-3
19 18-3
4 5i
6 45
7 53
0*2707
0*2688
0-2730
0*2826
11 45-8
10 57*9
10 10*9
9 25-6
296 45
298 41
300 39
302 39
10 35
10 20
10 3
9 45
0*4555
0*4518
0*4479
0*4440
Sept.
t
18
28
19 14-5
19 13*2
19 14*6
19 18*7
9 3
10 10
11 15
12 8
0*2955
0-3135
0-3324
0*3521
8 42-6
8 2-1
7 «M'3
6 49*0
304 42
306 46
308 53
311 2
9 *7
8 24
0*4400
0-4358
0*4316
0*4273
Oct
Nov.
8
18
28
7
19 25*0
19 33'4-
19 43-8
19 55-8
12 ss
13 31
13 57
14 12
0*3719
0*3911
0*4093
0*4264
6 16*1
5 45'2
5 16*2
4 4^9
3*3 13
315 26
317 42
320 1
8
7 36
7 10
6 43
0*4229
0-4185
0*4139
0*4093
Dec.
»7
27
7
17
20 9*2
20 23*8
20 39-4
20 559
14 16
14 9
13 50
13 20
0*4420
0*4560
04684
0*4792
4 23-0
a 58-*
3 34'5
3 n*6
322 23
3*4 47
327 15
329 46
6 15
5 46
5 15
4 43
0-4045
0*3998
0*3949
0*3901
27
37
21 13*1
21 30-9
12 40
S.i 1 49
0-4883
0*4959
2 49*4
2 27*7
332 20
334 58
4 10
N. 3 35
0-3851
0*3802
IO
©. JUNO, 1882.
BHEBBBS
AT TRANSIT AT GREENWICH.
Month
and
Day.
June 8
10
12
14
16
18
10
22
*4
26
28
30
July 2
4
6
8
10
12
14
16
20
21
»4
26
28
30
Aug. 1
3
5
7
9
XI
13
*5
17
19
21
*3
*5
27
*9
Sept. a
Apparent
Bight
m 1
8 33-32
7 55^o
7 "'57
6 22-81
5 **'9i
4 *9'9*
3 16-18
2 17*66
x 4*62
[9 59 47-26
[9 58 25-78
9 57 0*45
9 55
9 53
9 5*
9 50
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9 14
9 14
9 U
9 13
31-51
59-23
2391
45-88
5-4»
23*10
39*15
54-06
8-30
22-30
36-49
5i'34
7-26
24-69
44-04
5-69
30-03
5744
28-30
2-99
41-83
25-18
i3'33
6-58
5'i5
9-23
19-03
34-68
56- 30
23-97
57-78
37'8o
App. R.A.
on
intermediate
D.y.
m 8
8 14*87
7 3399
6 47-84
5 5649
5 0-06
3 58-68
2 52*50
I 41-70
o 26-47
59 7-02
9 57 43-58
9 56 16*42
54 45*77
53 "'93
51 35-21
49 55'95
48 14-51
46 31*29
44 46" 7*
43 i-*4
41 15*30
39 *9*34
37 43'8i
35 59' 14
34 15-76
32 34*io
3° 54'55
29 1750
9 *7 43*33
9 26 12*42
9 H 45'H
9 23 21*87
9
9
22 2*93
20 48*64
19 39*30
x8 3518
17 36-49
16 43*41
15 56*11
15 H-74
I
9
9
9
9
9
9
9 14 39*37
9 14 io* 10
9 13 47*°i
9 '3 30*14
Var. of
K.A.
in
1 Hour
of
Long.
Apparent -
Declination.
8
o*74
0-85
• 9 6
•07
•18
•28
•38
•48
*57
•66
'74
•82
•89
-96
•02
•07
-11
*'5
•18
•20
•21
•21
•20
•18
•15
•12
•07
•02
•96
•89
•82
•73
•64
*55
*44
'34
*22
'II
0*99
o-86
o'74
o*6i
0-48
0*35
8.
S.
o 1 t
4 * «'9
3 58 39*8
3 55 *9*5
3 5* 5*4
3
3
3
3
3
3
3
3
8.
S.
50 49*5
49 22*0
48 30*8
48 l6'9
48 41*0
49 43*7
5i *5*5
53 46-8
3 56 47'9
4 o 28*9
4 4 50-1
4 9 Si'*
4 15 3*'*
4 « 5**5
4 *8 51-5
4 36 28*2
4 44 41 4
4 53 30'o
5 * 5»*3
5 12 468
5
5
5
5
6
6
6
6
8.
23 ii-8
34 5 4
45 *5'6
57 io-6
9 '8-4
21 46*8
34 33*9
47 37*6
7 o 55*7
7 14 *5'8
7 *8 5*7
7 4i 53*i
7 55 45*8
8 9 4i"9
8 *3 39*3
8 37 3*5-1
8 51 30-4
9 5 20*6
9 19 5'»
9 3* 4**7
App. Dec
on
intermediate
Day.
Var. of
Dee.
in
1 Hour
of
Long.
o t *
4 o 27-0
3 57 o*6
3 54 6-8
3 5i 4^*6
3 50 1-2
3 48 51*8
3 48 19-2
3 48 *4*«
S.
s.
s.
49 7*5
50 29-7
52 31-2
55 "*3
$8 33*4
* 34*5
7 i5 # 7
12 36-8
18 375
25 17-2
32 352
4° 30-3
49 i"4
58 7-0
7 45*6
17 55*6
28 35-1
39 4»*3
51 151
3 n-8
15 30-1
28 8-2
41 3*8
54 »5*o
7 39*4
21 14*7
34 58-6
48 48*9
* 43*5
16 40*6
30 37-9
8 44 33'7
8 58 26*1
9 « i3'7
9 25 55-0
9 39 -»8-4
w
+ 4*9
4*3
3-6
29
4- a-a
i*4
+ 0-7
- o-i
- 0-9
i*7
»*5
3*4
- 4*»
50
5*9
67
- 7*5
8*3
9*i
9*9
- 10-6
11-4
I2'I
12-7
-I3-3
I3-9
*4'4
14*9
-154
15-8
16*2
i6- 5
-168
17-0
17*2
17*3
'4
*4
4
•4
-17
17
17
17
-173
17-2
17-1
— 16-9
Digitized by
=
O
© JUNO, 1882.
11
AT TRANSIT AT GREENWICH.
Month
and
Day.
Apparent
Bight
Ascension.
App. R.A.
on
intermediate
Day.
Var. of
B.A.
in
1 Hour
of
Long.
Apparent
Declination.
App, Dec.
on
intermediate
Day.
Var. of
Dee.
in
1 Hour
of
Long.
Hor.
Par.
Sept 4
6
8
xo
12
14
16
18
20
22
*4
26
28
30
Oct. 2
4
6
8
10
12
h m s
19 13 24*05
19 13 16*61
19 13 15*50
19 13 20*74
19 13 32*31
19 13 50*21
19 14 14*38
19 14 44*75
19 15 21*26
19 16 3*81
19 16 52*29
19 17 46-61
19 18 46*63
19 19 52*28
19 21 3*44
19 22 20*02
19 *3 4« '93
19 25 9-07
19 26 41*33
19 28 18*59
h m 8
19 13 19*54
19 13 15*26
19 13 17*33
19 13 25*74
19 '3 4°'47
19 14 1*52
19 14 28*80
19 15 2*24
19 15 41*78
19 l6 27*31
19 17 18*73
19 18 15*91
19 19 18*76
19 20 27*18
19 21 41*06
19 23 0*32
19 24 24*85
19 25 54*56
19 27 29*34
19 29 9*07
8
— 0*22
— 0*09
+ 0*04
o*i8
+ 0*31
0*44
0*57
0*70
+ 0*82
0*95
1*07
119
+ 1*31
1*43
1*54
1*65
+ 1*76
1*87
i'97
+ 2*08
/ H
B. 9 46 "*7
9 59 3°' 8
10 12 38*6
xo 25 33*8
8. 10 38 15*2
xo 50 41*8
11 2 525
xi 14 46*2
8. 11 26 22*1
11 37 39*3
11 48 37*2
11 59 15*1
B. 12 9 32*5
12 19 28*8
12 29 3*5
12 38 l6'2
S. 12 47 6*2
" 55 33' 1
13 3 3*'4
S. 13 11 15*7
1 *
8. 9 52 52*6
10 6 6*2
10 19 7*9
10 31 56*3
8. io 44 30*4
10 56 49*2
11 851*5
11 20 36*5
8. 11 32 3*1
11 43 10*7
ii 53 58*6
12 4 26*4
8.12 14 33*3
12 24 18*9
12 33 42*6
12 42 44-0
8. 12 51 22*5
12 59 37*7
13 7 29*1
8. 13 14 56'3
M
-i6*8
16*5
x6*3
16-0
-15*7
«5*4
15*0
H # 7
-H'3
13*9
'35
13*1
-126
12*2
ii*7
n*3
-io*8
10*3
9*8
- 9*3
n
4*4
4*3
43
4'3
4**
4»
4*»
4i
4' *
4*o
4'o
4*0
3'9
3'9
3'9
38
3*8
3'8
3"7
3*7
»
f
Digitized by
Google
12
© VESTA, 188a.
MEAN TIME.
Month
and
Right
Ascension.
Declination.
Log. of
Dist. from
the Earth.
Meridian
Helio-
centric
Longitude.
Helio-
centric
Latitude.
Log. of '
Rad. Vect
i
Daj
Passage.
Noon,
Noon.
Noon.
Noon.
Noon.
Noon. 1
h m
O 9
h m
/
r
Jan.
i
2 6-6
N. 5 27
0*3107
0-3378
7 213
5* 37
s. 5 33
0-4077
ii
2 10*7
6 29
6 46-2
54 56
5 22
0*4082
21
2 i7'<>.
7 39
0*3641
6 13-2
57 14
5 '2
0*4087
31
2 25*2
8 55
0*3890
5 4*'i
59 3*
458
0-4091
Feb.
IO
2 35-1
10 13
0*4122
5 12*6
61 50
4 46
0-4094
20
2 46-3
11 34
o'4337
4 44'5
64 7
4 33
0*4096
Mar.
2
2 58-8
12 54
0*4534
4 17*6
66 24
4 »9
0*4098
12
3 12-3
14 12
0*4711
3 5i-8
68 40
4 6
0*4099
22
3 26-8
15 28
0-4870
3 26*9
70 57
3 5i
0-4100
Apr.
I
3 42*0
16 40
0*5011
3 2*8
73 »4
3 37
0-4100
II
3 58*0
17 48
0*5133
2 39*4
75 30
3 22
0*4099
21
4 H'7
18 49
0-5239
2 16*7
77 47
3 7
0*4098
May
I
4 3i'9
19 44
0-5327
1 54'4
80 3
2 51
0*4096
II
4 49*5
20 32
0*5399
1 32-7
82 20
2 35
0-4093
21
S 7' 6
21 12
Q'5454
1 11-4
li "
2 19
0*4089 .
31
5 25-9
21 44
0-5494
50-3
86 54
2 3
0-4085
June
10
5 44'6
6 3-3
22 8 .
0*5519
29*6
H o 8*9
89 11
1 47
o'4o8i
20
22 23
0*5529
91 29
I 30
0-4075
30
6 22*2
22 29
0-5522
23 46*4
93 46
96 5
1 *2
56
0-4069
July
10
6 41-1
22 27
0-5501
23 25*9
0-4063
20
6 59*9
22 l6
0*5465
23 5*3
98 23
38
0-4056
30
7 18-6
21 58
0-5413
22 44*6
100 42
21
0-4048
Aug.
9
7 371
21 32
0*5346
0*5262
22 23*6
103 2
S. 4
0-4039
19
7 55'3
20 59
22 2*4
105 22
N. 14
0-4030
29
8 13-2
20 21
0*5162
21 40*9
107 43
32
0-4020
Sept
8
8 30-7
IO 37
l8 50
6*5046
21 18*9
no 4
49
0-4010
18
8 47-7
0*4912
20 56-5
112 27
1 7
0-3999
28
9 4'i
18
0-4761
20 33-5
114 50
1 25
0-3988
Oct.
8
9 i9'9
17 8
0-4591
20 9-8
117 13
1 42
0-3976
18
9 35'°
l6 17
0*4402
19 45-5
119 38
2
0-3965
28
9 49*2
15 29
0-4194
19 20-2
18 54-0
122 3
2 17
0-3950
Not.
7
10 2*5
14 44
0*3967
124 29
* 34
0-3936
*7
10 14-5
14 6
0-3721
18 26-6
126 57
2 51
0-3922
27
10 25*3
13 37
0*3457
"7 57'9
129 25
3 8
0-3908
0-3893
Dec.
7
10 34-4
13 20
0*3178
0-2887
17 27-5
I3 1 55
3 25
17
10 41-7
13 16
16 55*3
134 26
3 4i
0-3877
27
10 46-7
13 29
0-2592
l6 20*8
136 57
3 57
0-3862
37
id 49-1
N.14 2
0*2299
15 43*6
139 30
N. 4 13
0-3845
Digitized by
L-oogle
® VESTA, 1882.
AT TRANSIT AT GREENWICH.
Month
and
Day.
Apparent
Right
Ascension.
App. R. A
on
intermediate
Day.
Var. of
R.A.
in
1 Hour
of
Long.
Apparent
Declination.
App. Dec*
on
intermediate
Day.
Var. of
Dec
in
1 Hour
of
Long.
Hor.
Par.
Jan.
1
3
5
7
9
11
*3
15
«7
«9
21
»3
h m ■
2 6 39*40
a 7 18-52
2 8 3-32
2 8 53*68
* 9 49'45
2 xo 50*51
2 ix 56-73
2 13 7'9»
2 14 24*15
2 15 45-14
2 17 10*79
2 18 40*99
2 20 15*62
h m s
2 6 58*24
2 7 40*22
2 8 27*81
2 9 20-90
2 10 19-33
2 ix 22-98
2 12 3173
* «3 45 '45
2 15 4-05
2 16 27-39
2 17 55-33
2 19 27*76
■
0*75
0*87
0*99
1*11
1*22 llC,
'•33
I'
I'
+ I
r
i'
i'
+ 2'
X.
43
54
64
74
«3
93
02 |N,
1 n
28 18*0
40 6*3
52 17*1
4 49*4
17 42*0
6 30 53*6
6 44 23*2
6 58 9-7
7 12 12*1
7 26 29*3
7 41 0*2
7 55 43 # 6
8 10 38*3
o / t
5 34 9'3
5 46 9 # o
5 58 30-6
6 it 13-3
6 24 15 *5
6 37 36*2
6 51 14-4
7 5 9*0
7 19 18-9
7 33 43-'
7 48 20*4
N. 8 3 9*6
N,
11
+ 145
150
155
15*9
+ 16*3
16*7
17*1
'7'4
+ 17*7
18*0
183
18*5
+ 18*8
4'
4*
4'
4*
4'
4*
4'
4*
3
3
3
3
3
Digitized by
Google
LONDON:
Printed by Gboege E. Etke and William Spottisitoode,
Printers to the Queen's most Excellent Majesty.
For Her Majesty's Stationery Office.
[13715.-10,000.-10/78.]
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Digitized by
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-Digitized by VjOOQ IC
UNIVERSITY OF MICHIGAN
Ml
3 001506818 0626
oogle
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